Marantz DV4100F Service Manual

Service
Manual

DV4100F/N1B/T1B

R

DV4100 OSE

302W855020 ACT
3120 785 22590
First Issue:2001.04

Printed in The Netherlands

DV4100 OSE

V4100 OSE

DVD Player

REMARK : This service manual explains the electrical differences between the

DV4100/N1B/T1B (DV4100) and the DV4100F/N1B/T1B (DV4100 OSE).
All other information is described in the service manual of the model DV4100/
N1B/T1B (Code number : 3120 785 22440). The dispatch of the parts for after
sales service has to be referred to these service manuals, with the first priority.
For this reason, please use these service manuals with referring to the models
DV4100/N1B/T1B service manual without fail.

The DV4100 OSE is equal to the DV4100 except the following electrical
changes (mechanical changes are not listed):

Position No. Service code Description

7403 9965 000 08119 LM 837M
2453, 2472 4822 124 90354 100uF 16V RA-2
2412, 2545 4822 124 80123 220uF 16V Silmic
2456, 2462 9965 000 08118 100uF 16V Bipolar Silmic

Service
Manual

Please use this service manual with referring to the user guide (D.F.U) without fail.

302W855010 AO
3120 785 22440
First Issue:2000.11

DV4100/A1B, /N1B, /S1G, /U1B

DVD Player

DV4100

TABLE OF CONTENTS

1. TECHNICAL SPECIFICATION ...............................................................................1

2. CONNECTION FACILITIES....................................................................................3

3. INFORMATIONS.....................................................................................................4

4. SERVICING HINT...................................................................................................5

5. WARNING AND LASER SAFETY INSTRUCTIONS...............................................6

6. SERVICE HINTS ....................................................................................................8

7. BLOCK DIAGRAM ..................................................................................................9

8. WIRING DIAGRAM...............................................................................................13

9. DISMANTLING INSTRUCTIONS .........................................................................15

10. EXPLODED VIEW AND PARTS LIST...................................................................17

11. SCHEMATIC DIAGRAM AND PARTS LOCATION ...............................................21

12. TROUBLESHOOTING..........................................................................................47

13. DIAGNOSTIC SOFWARE : SCRIPT INTERFACES.............................................53

14. INTERACTIVE TESTS..........................................................................................55

15. TEST INSTRUCTIONS DISPLAY BOARD ...........................................................62

16. CURRENT MODE POWER SUPPLY 20PS203 ...................................................64

17. CIRCUIT DESCRIPTIONS AND ABBREVIATIONS..............................................68

18. ELECTRICAL PARTS LIST...................................................................................70

STOP

SOUND

PAUSE

OPEN/CLOSE

ON/OFF

STANDBY

POWER

DVD PLAYER DV4100

PLAY

Printed in Japan

DV4100

MARANTZ DESIGN AND SERVICE

Using superior design and selected high grade components, MARANTZ company has created the ultimate in stereo sound.
Only original

MARANTZ parts can insure that your MARANTZ product will continue to perform to the specifications for which

it is famous.
Parts for your

MARANTZ equipment are generally available to our National Marantz Subsidiary or Agent.

ORDERING PARTS :

Parts can be ordered either by mail or by Fax.. In both cases, the correct part number has to be specified.
The following information must be supplied to eliminate delays in processing your order :

1. Complete address

2. Complete part numbers and quantities required

3. Description of parts

4. Model number for which part is required

5. Way of shipment

6. Signature : any order form or Fax. must be signed, otherwise such part order will be considered as null and void.

SHOCK, FIRE HAZARD SERVICE TEST :

CAUTION : After servicing this appliance and prior to returning to customer, measure the resistance between either primary AC

cord connector pins ( with unit NOT connected to AC mains and its Power switch ON ), and the face or Front Panel of product and
controls and chassis bottom.
Any resistance measurement less than 1 Megohms should cause unit to be repaired or corrected before AC power is applied, and
verified before it is return to the user/customer.
Ref. UL Standard No. 1492.

In case of difficulties, do not hesitate to contact the Technical
Department at above mentioned address.

001120 A.O

USA

MARANTZ AMERICA, INCMARANTZ AMERICA, INC.
440 MEDINAH ROAD
ROSELLE, ILLINOIS 60172
USA
PHONE : 630 - 307 - 3100
FAX : 630 - 307 - 2687

BRAZIL

PHILIPS DA AMAZONIA IND. ELET. ITDA

CENTRO DE INFORMACOES AO

CEP 04698-970
SAO PAULO, SP, BRAZIL
PHONE : 0800 - 123123

(Discagem Direta Gratuita)

FAX : +55 11 534. 8988

JAPAN

Technical

MARANTZ JAPAN, INC.
35- 1, 7- CHOME, SAGAMIONO
SAGAMIHARA - SHI, KANAGAWA
JAPAN 228-8505
PHONE : +81 42 748 1013
FAX : +81 42 741 9190

EUROPE / TRADING

MARANTZ EUROPE B.V.
P.O.BOX 80002, BUILDING SFF2
5600 JB EINDHOVEN
THE NETHERLANDS
PHONE : +31 - 40 - 2732241
FAX : +31 - 40 - 2735578

TECHNICAL AUDIO GROUP PTY, LTD
558 DARLING STREET,
BALMAIN, NSW 2041,
AUSTRALIA
PHONE : 61 - 2 - 9810 - 5300
FAX : 61 - 2 - 9810 - 5355

CANADA

LENBROOK INDUSTRIES LIMITED
633 GRANITE COURT,
PICKERING, ONTARIO L1W 3K1
CANADA
PHONE : 905 - 831 - 6333
FAX : 905 - 831 - 6936

AUSTRALIA

QualiFi Pty Ltd,
24 LIONEL ROAD,
MT. WAVERLEY VIC 3149
AUSTRALIA
PHONE : +61 - (0)3 - 9543 - 1522
FAX : +61 - (0)3 - 9543 - 3677

NEW ZEALAND

WILDASH AUDIO SYSTEMS NZ
14 MALVERN ROAD MT ALBERT
AUCKLAND NEW ZEALAND
PHONE : +64 - 9 - 8451958
FAX : +64 - 9 - 8463554

THAILAND

MRZ STANDARD CO.,LTD
746 - 754 MAHACHAI ROAD.,
WANGBURAPAPIROM, PHRANAKORN,
BANGKOK, 10200 THAILAND
PHONE : +66 - 2 - 222 9181
FAX : +66 - 2 - 224 6795

TAIWAN

PAI- YUING CO., LTD.
6 TH FL NO, 148 SUNG KIANG ROAD,
TAIPEI, 10429, TAIWAN R.O.C.
PHONE : +886 - 2 - 25221304
FAX : +886 - 2 - 25630415

MALAYSIA

WO KEE HONG ELECTRONICS SDN. BHD.
SUITE 8.1, LEVEL 8, MENARA GENESIS,
NO. 33, JALAN SULTAN ISMAIL,
50250 KUALA LUMPUR, MALAYSIA
PHONE : +60 3 - 2457677
FAX : +60 3 - 2458180

AMERICAS

SUPERSCOPE TECHNOLOGIES, INC.
MARANTZ PROFESSIONAL PRODUCTS
2640 WHITE OAK CIRCLE, SUITE A
AURORA, ILLINOIS 60504 USA
PHONE : 630 - 820 - 4800
FAX : 630 - 820 - 8103

AUSTRALIA

KOREA

MK ENTERPRISES LTD.
ROOM 604/605, ELECTRO-OFFICETEL, 16-58,
3GA, HANGANG-RO, YONGSAN-KU, SEOUL
KOREA
PHONE : +822 - 3232 - 155
FAX : +822 - 3232 - 154

SINGAPORE

WO KEE HONG DISTRIBUTION PTE LTD
130 JOO SENG ROAD
#03-02 OLIVINE BUILDING
SINGAPORE 368357
PHONE : +65 858 5535 / +65 381 8621
FAX : +65 858 6078

1

PLAYBACK SYSTEM

DVD-Video
Video CD
CD (CD-R and CD-RW)

OPTICAL READOUT SYSTEM

Lasertype Semiconductor AlGaAs
Numerical Aperture 0.60 (DVD)

0.45 (VCD/CD)

Wavelength 650 nm (DVD)

780 nm (VCD/CD)

DVD DISC FORMAT

Medium Optical Disc
Diameter 12cm (8cm)
Playing time One layer 2.15 h*
(12cm) Dual layer 4 h*

Two side 4.30 h*
Single layer
Two side 8 h*
Dual layer

TV STANDARD EUROPE USA

(PAL/50Hz) (NTSC/60Hz)
Number of lines 625 525
Playback Multistandard (PAL/NTSC)

VIDEO FORMAT

DA Converter 10 bits
Signal handling Components
Digital Compression MPEG2 for DVD,

MPEG1 for VCD

DVD

Horiz. Resolutio 720 pixels** 720 pixels**
Vertical Resolution 576 lines 480 lines

VCD

Horiz. Resolution 352 pixels 352 pixels
Vertical Resolution 288 lines 240 lines

VIDEO PERFORMANCE

Video output 1 Vpp into 75 ohm
S-Video output Y: 1 Vpp into 75 ohm

C: 0.3 Vpp into 75 ohm
RGB output 1 Vpp into 75 ohm
Black Level Shift On/Off
Video Shift Left/Right

AUDIO FORMAT

Digital MPEG Compressed Digital

DTS/AC-3

PCM 16, 20, 24 bits

fs, 44.1, 48, 96 kHz
Analog Sound Stereo
Dolby Pro Logic downmix from AC-3 multi-channel sound
3D Sound for virtual 5.1 channel sound on 2 speakers

AUDIO PERFORMANCE

DA Converter 24 bits
DVD fs 96 kHz 4 Hz - 22kHz

fs 48 kHz 4 Hz - 22 kHz
Video CD fs 48 kHz 4 Hz - 22 kHz
CD fs 44.1 kHz 4 Hz - 20 kHz
Signal-Noise (1kHz) 95 dB
Dynamic Range (1kHz) 90 dB
Crosstalk (1kHz) 110 dB
Distortion and Noise (1kHz) 85 dB

CONNECTIONS

SCART Euroconnector 2x
S-Video Output Mini DIN, 4 pins
Video Output Cinch (yellow)
Audio L+R output Cinch (white/red)
Digital Output 1 coaxial, 1 optical

IEC958 for CDDA / LPCM
IEC1937 for MPEG1/2,

AC-3 and DTS

CABINET

Dimensions(w x h x d) 440 x 92 x 305 mm
Weight Approx. 3.8 Kg

PACKAGE CONTENTS

DVD-Video Player
Remote Control & Batteries
AC Power cable
User Manual
SCART cable (Euroconnector)
Audio/Video cable

GENERAL FUNCTIONALITY

Stop / Play / Pause
Fast Forward / Backward
Time search
Step Forward / Backward
Slow
Title / Chapter / Track Select
Skip Next / Skip Previous
Repeat (Chapter / Title / All) or (Track / All)
A-B Repeat
Shuffle
Enhanced ease of use graphical interface
Perfect Still with digital multi-tap filter
Zoom (x1.33, x2, x4) with picture enhancement
3D Sound
Virtual jog shuttle
Audio and video bit rate indicator

(only available in certain countries)

DVD FUNCTIONALITY

Multi-angle Selection
Audio Selection (1 out of max. 8 languages)
Subtitles Selection (1 out of max. 32 languages)
Aspect Ratio conversion (16:9, 4:3 Letterbox, 4:3 Pan Scan)
Parental Control and Disk Lock
Disc Menu support (Title Menu and Root Menu)
Resume (5 discs) after stop / standby
Screen Saver (Dim 75% after 15 min.)
Programming Titles/chapters with Favorite Selection

VIDEO CD FUNCTIONALITY

Playback Control for VCD 2.0 discs
Parental Control and Disc lock
Resume (5 discs) after stop / standby
Screen Saver (Dim 75% after 15 min.)
Programming Tracks with Favorite Selection

AUDIO CD FUNCTIONALITY

Time Display (Total / Track )
Full audio functionality with remote control
Programming with Favorite Track Selection

* typical playing time for movie with 2 spoken languages and 3 subtitle languages.
** equivalent to 500 lines on your TV

Specifications subject to change without prior notice

1. TECHHNICAL SPECIFICATIONS (/N1B)

PLAYBACK SYSTEM

DVD-Video
Video CD
CD (CD-R and CD-RW)

OPTICAL READOUT SYSTEM

Lasertype Semiconductor AlGaAs
Numerical Aperture 0.60 (DVD)

0.45 (VCD/CD)

Wavelength 650 nm (DVD)

780 nm (VCD/CD)

DVD DISC FORMAT

Medium Optical Disc
Diameter 12cm (8cm)
Playing time One layer 2.15 h

*

(12cm) Dual layer 4 h

*

Two side 4.30 h

*

Single layer
Two side 8 h

*

Dual layer

TV STANDARD EUROPE USA

(PAL/50Hz) (NTSC/60Hz)
Number of lines 625 525
Playback Multistandard (PAL/NTSC)

VIDEO FORMAT

DA Converter 10 bits
Signal handling Components
Digital Compression MPEG2 for DVD,

MPEG1 for VCD

DVD

Horiz. Resolution 720 pixels* 720 pixels**
Vertical Resolution 576 line 480 lines

VCD

Horiz. Resolution 352 pixel 352 pixels
Vertical Resolution 288 line 240 lines

VIDEO PERFORMANCE

Video output 1 Vpp into 75 ohm
S-Video output Y: 1 Vpp into 75 ohm

C: 0.3 Vpp into 75 ohm
Y 1 Vpp into 75 ohm
C

R

0.7 Vpp into 75 ohm

C

B

0.7 Vpp into 75 ohm
Black Level Shift On/Off
Video Shift Left/Right

AUDIO FORMAT

Digital MPEG Compressed

DTS/AC-3
PCM 16, 20, 24 bits

fs, 48, 96 kHz
Analog Sound Stereo
Dolby Pro Logic downmix from AC-3 multi-channel sound
3D Sound for virtual 5.1 channel sound on 2 speakers

AUDIO PERFORMANCE

DA Converter 24 bits
DVD fs 96 kHz 4 Hz - 44 kHz

fs 48 kHz 4 Hz - 22 kHz
Video CD fs 48 kHz 4 Hz - 22 kHz
CD fs 44.1 kHz 4 Hz - 20 kHz
Signal-Noise (1kHz) 95 dB
Dynamic Range (1kHz) 90 dB
Crosstalk (1kHz) 110 dB
Distortion and Noise (1kHz) 85 dB

CONNECTIONS

S-Video Output Mini DIN, 4 pins
Component Video Y Cinch (green)

U (C

R

) Cinch (blue)

V (CB) Cinch (red)
Video Output Cinch (yellow) 2x
Audio L+R output Cinch (white/red) 2x
Digital Output 1 coaxial, 1 optical

IEC958 for CDDA / LPCM

IEC1937 for MPEG1/2,

AC-3 and DTS

CABINET

Dimensions (w x h x d) 440 x 92 x 305mm
Weight Approx. 3.8 Kg

PACKAGE CONTENTS

DVD-Video Player
Remote Control & Batteries
AC power cord
User Manual
Audio/Video cord

GENERAL FUNCTIONALITY

Stop / Play / Pause
Fast Forward / Backward
Time search
Step Forward / Backward

Title / Chapter / Track Select

Skip Next / Skip Previous
Repeat (Chapter / Title / All) or (Track / All)
A-B Repeat
Shuffle

Enhanced ease of use graphical interface

Perfect Still with digital multi-tap filter
Zoom (x1.33 x2. x4) with picture enhancement
3D Sound

Virtual Jog Shuttle
Audio and video bit rate indicator

(only available in certain countries)

DVD FUNCTIONALITY

Multi-angle Selection
Audio Selection (1 out of max. 8 languages)
Subtitles Selection (1 out of max. 32 languages)
Aspect Ratio conversion (16:9, 4:3 Letterbox, 4:3 Pan Scan)
Parental Control and Disk Lock
Disc Menu support (Title Menu and Root Menu)
Resume (5 discs) after stop / standby
Screen Saver (Dim 75% after 15 min.)
Programming Titles/chapters with Favorite Selection

VIDEO CD FUNCTIONALITY

Playback Control for VCD 2.0 discs
Parental Control and Disc lock
Resume (5 discs) after stop / standby
Screen Saver (Dim 75% after 15 min.)
Programming Tracks with Favorite Selection

AUDIO CD FUNCTIONALITY

Time Display (Total / Track )
Full audio functionality with remote control
Programming with Favorite Track Selection

* typical playing time for movie with 2 spoken languages and 3 subtitle languages.
** equivalent to 500 lines on your TV

Specifications subject to change without prior notice

2

(/A1B, /S1G, /U1B)

1 2

2

2

5

5

4

4

3

6

Map of DVD Regions

What are "regional codes"?

Motion picture studios want to control the home release of movies in different countries because theater releases arenít
simultaneous (a movie may come out on DVD in the US when itís just hitting screens in Europe). Therefore they have

required that the DVD standard include codes which can be used to lock out the playback of certain discs in certain geo­graphical regions. Players sold in each region will have that regionís code built into the player. The player will refuse to play

these "region coded" discs which are not allowed in the region. However, regional codes are entirely optional. Discs without
codes will play on any player in any country. Some studios have already announced that only their new releases will have
regional codes. There are six regions:

1. United States and Canada

2. Europe and Japan

3. Far East (except Japan & China)

4. South America and Oceania

5. Africa and the Middle East

6. China (except Hong Kong)

3

2. CONNECTION FACILITIES

1 3 5 7 9 11 13 15 17 19

21

2 4 6 8 10 12 14 16 18 20

2-1 Video performance (/N1B only)

SCART (/N1B versions only)

Full according PQR3 IMS
Connector implementation according EN50049-1; color = black; dual SCART
Fully according to prEN1057-2-1
Signal switching is P50 controlled; supported features of mode 3 see survey of applicable standards.

2-1-1 SCART II (connected to TV)

Pin signals:
1 Output Audio R 1.8V RMS
2 Input Audio R
3 Output Audio L 1.8V RMS
4 Audio GND
5 Blue/Chroma GND
6 Input Audio L
7 Bi-dir Blue out/Chroma in 0.7pp +/-0.1V into 75 Ohm (*)
8 Output Function switch 2V = TV

4.5V / 7V = asp. ratio 16:9 DVD

9.5V / 12V = asp. ratio 4:3 DVD
9 Green GND
10 Bi-dir P50 control
11 Output Green 0.7Vpp +/-0.1V into 75 Ohm (*)
12 not connected
13 Red/Chroma GND
14 fast switch GND
15 Output Red out/Chroma out0.7Vpp +/-0.1V into 75 Ohm (*)

+/-3dB 0.3Vpp in case of Chroma

16 Output fast switch RGB 1V / 3V into 75 Ohm = RGB

/CVBS or Y

0.4V into 75 Ohm = CVBS
17 Y/CVBS GND
18 fast switching GND
19 Output CVBS/Y/RGB sync 1Vpp +/-0.1V into 75 Ohm (*)
20 Input CVBS/Y
21 Shield

SCART I (connected to AUX)

Pin signals:
1 Output Audio R 1.8V RMS
2 Input Audio R
3 Output Audio L 1.8V RMS
4 Audio GND
5 Blue/Chroma GND
6 Input Audio L
7 Bi-dir Blue in/Chroma out +/-3dB 0.3Vpp Chroma
8 Input Function switch
9 Green GND
10 Bi-dir P50 control
11 Input Green
12 not connected
13 Red/Chroma GND
14 fast switch GND
15 Input Red in/Chroma in
16 Input fast switch RGB/CVBS or Y
17 CVBS GND
18 fast switching GND
19
20 Input CVBS/Y
21 Shield

(*) for 100% white

4

3. INFORMATIONS

REGION CODE

THE DISCS THAT THE DV4100 CAN HANDLE

The following discs can be played back with a DV4100.

Note: The regional code of the discs must meet to the regional

code of the DV4100.

DVD INFORMATION

Below is a glossary of the new terms related to DVD.

Title:

A disc may have more than one story/movie on it, so each
story/movie is called a “title”.
For example, if there are 2 movies on the disc, they are
separated into Title 1 and Title 2.

Chapter:

A title may also be separated into chapters.
For example, a movie (title) may be separated into 3 scenes
(chapters).

Subtitles:

DVDs are recorded with up to 32 different subtitle languages.
If a disc has more than one subtitle language, you can select
the subtitle language that you want to read.

Soundtrack language:

DVDs are recorded with up to 8 different soundtrack languages.
If a disc has more than one language, you can select the
soundtrack language that you want to listen to.

disc mark playback capability size side

DVD Audio/Video

12 cm

single/double

8 cm

CD Audio

12 cm

single

8 cm

12 cm

VCD Audio/Video single

8 cm

VERSION REGION CODE COUNTRY
/N1B 2 EUROPE
/S1G 3 ASIAN PACIFIC
/U1B 1 USA/CANADA
/A1B 4 AUSTRALIA

Multi-angles:

On some DVDs, scenes have been filmed from different angles
(up to a maximum of 9). On these discs, you can select the
angle that you want to watch. Please refer to the DVD’s manual
to see which scenes have multi-angles.

Title 1 Title 2

Chapter3Chapter1Chapter2Chapter

3

Chapter1Chapter

2

It is important to note that CD-R, CD-RW discs must be
FINALIZED before they can be played on this player. The disc
types which run on the player feature one or more of these
logos on the disc packaging.

5

4. SERVICING HINT

SERVICE TOOLS

Audio signals disc 4822 397 30184
Disc without errors (SBC444)+
Disc with DO errors, black spots and fingerprints (SBC444A) 4822 397 30245
Disc (65 min 1kHz) without no pause 4822 397 30155
Max. diameter disc (58.0 mm) 4822 397 60141
Torx screwdrivers

Set (straight) 4822 395 50145

Set (square) 4822 395 50132
13th order filter 4822 395 30204
DVD test disc
TEST software for PC : ComPair V1. 2

ComPair V1. 3
Connection Cable

4822 397 10131
4822 727 21634
4822 727 21637
3122 785 90017

SERVICE HINTS

6

5. WARNING AND LASER SAFETY INSTRUCTIONS

SHOCK, FIRE HAZARD SERVICE TEST:
CAUTION: After servicing this appliance and prior to returning to customer, measure the resistance between

either primary AC cord connector pins (with unit NOT connected to AC mains and its Power switch ON), and the
face or Front Panel of product and controls and chassis bottom,
Any resistance measurement less than 1 Megohms should cause unit to be repaired or corrected before AC
power is applied, and verified before return to user/customer.
Ref.UL Standard NO.1492.

NOTE ON SAFETY:

Symbol

: Fire or electrical shock hazard. Only original parts should be used to replace any part with symbol

Any other component substitution(other than original type), may increase risk or fire or electrical shock hazard.

F

ATTENTION

Tous les IC et beaucoup d’autres semi­conducteurs sont sensibles aux décharges
statiques (ESD).
Leur longévité pourrait être considérablement
écourtée par le fait qu’aucune précaution
n’est prise a leur manipulation.
Lors de réparations, s’assurer de bien être
relié au même potentiel que la masse de
l’appareil et enfiler le bracelet serti d’une
résistance de sécurité.
Veiller a ce que les composants ainsi que les
outils que l’on utilise soient également a ce
potentiel.

D

WARNUNG

Alle IC und viele andere Halbleiter sind
empfindlich gegen elektrostatische
Entladungen (ESD).
Unsorgfältige Behandlung bei der Reparatur
kann die Lebensdauer drastisch vermindern.
Sorgen sie dafür, das Sie im Reparaturfall
über ein Pulsarmband mit Widerstand mit
dem Massepotential des Gerätes verbunden
sind.
Halten Sie Bauteile und Hilfsmittel ebenfalls
auf diesem Potential.

WAARSCHUWING

Alle IC’s en vele andere halfgeleiders zijn
gevoelig voor elektrostatische ontladingen
(ESD).
Onzorgvuldig behandelen tijdens reparatie
kan de levensduur drastisch doen
verminderen.
Zorg ervoor dat u tijdens reparatie via een
polsband met weerstand verbonden bent met
hetzelfde potentiaal als de massa van het
apparaat.
Houd componenten en hulpmiddelen ook op
ditzelfde potentiaal.

AVVERTIMENTO

Tutti IC e parecchi semi-conduttori sono
sensibili alle scariche statiche (ESD).
La loro longevita potrebbe essere fortemente
ridatta in caso di non osservazione della piu
grande cauzione alla loro manipolazione.
Durante le riparazioni occorre quindi essere
collegato allo stesso potenziale che quello
della massa dell’apparecchio tramite un
braccialetto a resistenza.
Assicurarsi che i componenti e anche gli
utensili con quali si lavora siano anche a
questo potenziale.

All ICs and many other semi-conductors are
susceptible to electrostatic discharges (ESD).
Careless handling during repair can reduce
life drastically.
When repairing, make sure that you are
connected with the same potential as the
mass of the set via a wrist wrap with
resistance.
Keep components and tools also at this
potential.

WARNING

Safety regulations require that the set be restored to its original condition
and that parts which are identical with those specified be used.

Veiligheidsbepalingen vereisen, dat het apparaat in zijn oorspronkelijke
toestand wordt terug gebracht en dat onderdelen, identiek aan de
gespecifieerde worden toegepast.

Bei jeder Reparatur sind die geltenden Sicherheitsvorschriften zu beachten.
Der Originalzustand des Gerats darf nicht verandert werden.
Fur Reparaturen sind Original-Ersatzteile zu verwenden.

Le norme di sicurezza esigono che l’apparecchio venga rimesso nelle
condizioni originali e che siano utilizzati pezzi di ricambiago idetici a quelli
specificati.

Les normes de sécurité exigent que l’appareil soit remis a l’état d’origine et
que soient utilisées les pièces de rechange identiques à celles spécifiées.

GB

NL

I

D

I

F

GB

NL

7

LASE R SAFETY

This

this

unit employs a laser. Only a qualified service person should remove the cover or attempt to service

device, due to possible eye injury.

LASER DEVICE UNIT

Type: Semiconductor laser GaAlAs
Wave length: 650 nm (DVD)

780 nm (VCD/CD)

Output Power: 7 mW (DVD)

10 mW (VCD/CD)

Beam divergence: 60 degree

USE OF CONTROLS OR ADJUSTMENTS OR PERFORMANCE OF PR OCEDURE OTHER THAN
THOSE

SPECIFIED HEREIN MAY RESULT IN HAZARDOUS RADIATION EXPOSURE.
AVOID DIRECT EXPOSURE TO BEAM
WARNING

The use of optical instruments with this product will increase eye hazard.
Repair handling should take place as much as possible with a disc loaded inside the player

WARNING LOCATION: INSIDE ON LASER COVERSHIELD

CAUTION VISIBLE AND INVISIBLE LASER RADIATION WHEN OPEN AVOID EXPOSURE TO BEAM
ADVARSEL SYNLIG OG USYNLIG LASERSTRÅLING VED ÅBNING UNDGÅ UDSÆTTELSE FOR STRÅLING
ADVARSEL SYNLIG OG USYNLIG LASERSTRÅLING NÅR DEKSEL ÅPNES UNNGÅ EKSPONERING FOR STRÅLEN
VARNING SYNLIG OCH OSYNLIG LASERSTRÅLNING NÄR DENNA DEL ÄR ÖPPNAD BETRAKTA EJ STRÅLEN
VARO! AVATT AESSA OLET ALTT IINA NÄKYVÄLLE JA NÄKYMÄ TTÖMÄLLE LASER SÄTEILYLLE. ÄLÄ KATSO SÄTEESEEN
VORSICHT SICHTBARE UND UNSICHTBARE LASERSTRAHLUNG WENN ABDECKUNG GEÖFFNET NICHT DEM STRAHL AUSSETSEN
DANGER VISIBLE AND INVISIBLE LASER RADIATION WHEN OPEN AVOID DIRECT EXPOSURE TO BEAM
ATTENTION RAYONNEMENT LASER VISIBLE ET INVISIBLE EN CAS D'OUVERTURE EXPOSITION DANGEREUSE AU FAISCEAU

Warning for powersupply on posit ion 1005

The primary side of the powersupply including the heatsink carries live mains voltage when the
player is connected to the mains even when the player is swiched off !

This primary area is not shielded so it is possible to touch copper tracks and/or components when
servicing the player. Service personnel have to take precautions to pre vent touching this area or
components in this area .

The primary side of the powersupply has been indicated with a lightning stroke and a stripe-marked
printed on the printed wiring board

Note:
The screws on the basic Engine (position 218 in on the exploded view drawing) may never be
touched removed or re-adjusted.
Handle the Basic engine with care when the unit has to be exchanged!
The mechanism of the basic engine is very sensative for droping or shocks

!

6. SERVICE HINTS

8

6.1 DVD-Module 218

The DVD mechanism has to be exchanged completely in case
of failure. A new or repaired mechanism can be ordered with
codenumber 9305 023 61001.
Return the defective unit complete assembled in original
package to Philips Consumer Service in Eindhoven.

The monoboard has to be repaired on component level.

6.2 Diagnostic software

In chapter “Diagnostic software” some tests are refering to the
SCART functionality.
These tests are for sets with RGB-output.

For sets without RGB-output no SCART connector is mounted.
In these sets the SCART tests will automatically be skipped

6.3 Power Supply options

6.4 Compair

For assistance with the repair process of the monoboard an
electronic Fault finding guidance has been developed , this
program is called COMPAIR.
This COMPAIR program is available on CDROM.
The Version of the CDROM for repair of the monoboard is V1.3
and can be ordered with codenumber : 4822 727 21637.
This is an update CDROM , so when the COMPAIR CDROM is
used for the first time , one has to install the COMPAIR
ENGINE CDROM V1.2 first.
The V1.2 CDROM can be ordered with codenumber 4822 727
634 and has to registered after installation , the procedure for
registration is explained in the help file of the program and in
the booklet from the CDROM.
The cable to connect the monoboard with a PC can be ordered
with codenumber 3122 785 90017.
All the hardware and software requirements of the systems
necessary for working with COMPAIR is described on the
CDROM.

6.5 Monoboard repair

For repair of the monoboard the service manual 3122 785
10045 must be used.

3122 427 21750 3122 427 21370 3122 427 21760

110V USA 220V Europe China Multi voltage A/P
2261 CAP 330pF 2121 ELCO 100uF 385V 2261 CAP 330pF
2121 ELCO 150uF 250V 2121 ELCO 150uF 400V
3133 Resistor 10M

9 10

7. BLOCK DIAGRAM (/N1B)

SLAVE PROCESSOR

KEYBOARD

SPMS

St_by

AUDIO/VIDEO BACKEND BOARD

JBE
(servo)

RAM ROM

HOST
Sti5505

I2S

S2B

MONO BOARD

A/V signals

I2C

SCART
SWITCHING

AUX

TV

Y/C

CVBS(/YC not on SCART)

CVBS

CVBS

0/6/12V

RGB

UDA1328T

3

Kill

8Vstab

3V3stab

+12Vstby

Video
IC's and
audio
buffers

DAC

RGB/CVBS

RGB/CVBS

CVBS

AUDIO

AUDIO

AUDIO

L + R

DAC

SCART

SCART

DISPLAY BOARD

RGB/CVBS

L+R

I2C

DIG_OUT

I2S Audio

-5Vstab

-8Vstby

Switches

OPTICAL
OUTPUT

DIGITAL
OUTPUT

RC

7104

1113

TEA6420

AUDIO SCART
SWITCHING

7917

7401

7403

7900-7905

+12V stby
+5V stby

-8V stby

-40V
+5V

+3V3

11

12

(/A1B, /S1G, /U1B)

SLAVE PROCESSOR

KEYBOARD

SPMS

St_by

AUDIO/VIDEO BACKEND BOARD

JBE
(servo)

RAM ROM

HOST
Sti5505

I2S

S2B

MONO BOARD

A/V signals

I2C

Y/C

Y

UDA1328T

3

KILL

8Vstab

3V3stab

+12Vstby

Video
IC's and
audio
buffers

DAC

Headphone out

L + R

(ONLY DVD751)

2x

DAC

DISPLAY BOARD

DIG_OUT

I2S Audio

MICRO

-5Vstab

-8Vstby

Switches

-8V

-5V

-8V

OPTICAL
OUTPUT

DIGITAL
OUTPUT

RC

7104

1113

7400

7405 #

# DVD732 ONLY

7403 #

7008

7002

CVBS1

CVBS

RGB

Y

C

CVBS2

7020 : 7023

+12V stby

+5V stby

-8V stby

-40V
+5V

+3V3

CB

CR

TDA 4780

KOK

TC9409

-5V

13 14

8. WIRING DIAGRAM

Non Euro model only

EH

1

2

20

12STBKEY+

STBKEY-

105MM ----->

105MM ----->

400MM ----->

3139 110 38371

----->

100MM

3139 110 37201

----->

400MM

Non Euro model only

5

ADJA_OUT
ADJA_IN
ADJB_OUT

1
2
3
4
5
6
7

HP_L
MIC GND
HP_R
+12V
MIC_A

EH

GND

+12V
GND
+5VSTBY

STBKEY-

EH

EH

EH

PH

*

4

1

1205

1
2
3
4

+5VSTBY
STBLED
STBKEY+
STBKEY-

STANDBY

BOARD

4

1115

15

1116

1
2

4

GND
C
GND
Y

ADJB_IN
MIC GND

DISPLAY

BOARD

1

4

1117

1
2
3
4

+12V
GND
+5VSTBY

-40V

1
2
3
4

+5V
+5VSTBY
+6VSTBY
GND

GND
GND

-8VSTBY

2

+12VSTBY

CENTER_ON
STEREO_MUTE
DIG_OUT
GND

1
2
3
4
5
6

7
8
9
10
11
12

1
2
3
4

0207

3V3
3V3

PCM_OUT2
GND
PCM_OUT1

-8VSTBY
SCL

+12VSTBY
SDA

STBCONTROL

3V3A

9
10
11
12

1
2
3
4
5
6

7
8

9
10
11
12

3V3
3V3
+5V
+5VSTBY
+6VSTBY
GND

GND

+5VD
+5WD
KILL
GND
PCM_OUT0
LRCLK
SCLK

FFC

PCM_CLK

MIC GND

1
2
3

1
2
3
4
5
6
7
8

9
10
11
12
13
14
15
16

GND
H_SYNC
GND

MONO BOARD

1
2
3
4
5
6

+6VSTBY

8

CVBS
GND
0|6|12

-8V

13
14
15
16

17
18
19
20
21
22

P50
B
G
GND
R
CVBS
GND
0|6|12

-8V

1
2
3
4
5

ADJA_OUT
ADJA_IN

GND

ADJB_IN

8 1

16 1

4
5

15 116 122

1

12

1501

1604

1603

1600

SCL
GND
SCA
STBCONTROL
P50

GND
C
GND
Y

P50
B
G

7

R

280MM

GND

-8V

8

+5VD
+5WD
KILL
GND
PCM_OUT0
LRCLK
SCLK

GND
PCM_CLK
CENTER_ON
STEREO_MUTE
DIG_OUT
GND

A/V BOARD

EH

EH

FFC

FFC

*

15
16

17
18
19
20
21

ADJB_OUT

1

22 15

1002

1000

1001

1003

GND
H_SYNC
GND
PCM_OUT2
GND
PCM_OUT1

-8VSTBY
SCL

+12VSTBY
SDA
+6VSTBY
3V3A

1
2
3
4
5
6
7

GND

<-----

1

GND

-8VSTBY
STBCONTROL

KILL

8

9

10
11
12
13
14
15
16

1
2
3
4
5
6
7
8

9
10
11
12
13
14 22

PH

5

SCL
GND
SCA
STBCONTROL
P50

1

3
4

+5VSTBY
STBLED

-40V

POWER SUPPLY

BOARD

EHHR

41

0205

121

3

FFCPH

GND

+12VSTBY

15

1118

<----- 280MM

<----- 400MM

----->

100MM

3139 110 38831

3139 110 34221

3139 110 34321

3103 308 91150

3139 110 38631

3139 110 38681

3139 110 34251

STBKEY+

12STBKEY+

STBKEY -

EH

1

2 CN4

15 16

9. DISMANTLING INSTRUCTIONS

Cover 151

Remove 7 screws 233
Lift cover at rearside to
remove

Front assy 1

remove 2 screws 212
(front 1 frame 213)
unlock front from frame by
releasing successively 3
snaps (on the left, in the
middle and on the right)
put front assy in front of the
set(service position)

DVD MODULE 218

Remove connections to
Mono board
remove 4 screws
217 (loader bracket
2 frame 213)
demount module

DVD MONO Board 7

See also exploded view of
DVD module
Remove flex connections to
turntable motor and sledge
motor.
remove 4 screws
10 13(mono board 7
loader bracket 2)
remove carefully flex
connection to OPU and wire
connection to tray motor.
demount board.

LOADER VAL3000 1

Remove 2 screws 8,9
Remove 4 suspensions
3 6 from loader bracket

Standby board 1003 and
switch assy

Remove 2 screws
25 26(board front)
demount board
Remove 1 screw 207
Take out switch assy

Display board 1002

Remove 7 screws
203(board front), pay
attention to earth spring 300.
demount board

AV board 1002

remove flex connections to
Mono board
remove 7 screws 227
release snaps of 2 spacers
221
demount board

Power supply unit 1005

remove connections
remove 2 screws 222
(board frame)
remove screw 225 (mains
inled backplate)
release snaps of spacers
226 (board frame)
demount board

mounting

demounting

17

18

10. EXPLODED VIEW AND PARTS LIST (/N1B)

POS.

NO

VERS.

COLOR

PART NO.

(PCS)

DESCRIPTION

PART NO.

(MJI)

0200 3139 247 51280 FRONT PANEL (BLACK) QT24751280
0201 3120 001 00051 BADGE MARANTZ QZ00100051
0202 3139 247 51310 BADGE DVD QT24751310
0204 3139 244 00550 WINDOW QT24400550
0205 3139 244 00560 BUTTON STANDBY QT24400560
0219 3139 244 00590 DOOR QT24400590
0220 3139 241 20110 SPRING DOOR QT24120110
0240 3139 247 51410 BUTTON CONTROL QT24751410
0244 3139 247 51461 FOOT QT24751461
0245 3139 247 51461 FOOT QT24751461

1005 3122 427 22300 PSU PCB ASSY

DVD2B+ 20PS223
1014 3104 157 11190 CWAS FLEX DVD 22 130 32S QW15711190
1018 3104 157 11200 CWAS FLEX DVD 16 130 32S QW15711200

0385 4822 321 10249 MAINS CORD QP32110249
0384 3139 228 85500 REMOTE CONTROL QT22885500
0387 3139 246 10340 USER GUIDE (/N1B) QT24610340

19 20

(/A1B, /S1G, /U1B)

For /A1B, /S1G and /U1B new

For /U1B old

POS.

NO

VERS.

COLOR

PART NO.

(PCS)

DESCRIPTION

PART NO.

(MJI)

0200

/A1B,/U1B

3139 247 51290 FRONT PANEL (BLACK) QT24751290
0200 /S1G 3139 247 51302 FRONT PANEL (GOLD) QT24751302
0201 4822 454 11825 BADGE MARANTZ QP45411825
0202

/A1B,/U1B

3139 247 51310 BADGE DVD (BLACK) QT24751310
0202 /S1G 3139 247 51321 BADGE DVD (GOLD) QT24751321
0204 3139 244 00550 WINDOW QT24400550
0205

/A1B,/U1B

3139 244 00570 BUTTON POWER (BLACK) QT24400570
0205 /S1G 3139 247 51331 BUTTON POWER (GOLD) QT24751331
0219

/A1B,/U1B

3139 244 00590 DOOR (BLACK) QT24400590
0219 /S1G 3139 247 51341 DOOR (GOLD) QT24751341
0220 3139 241 20110 SPRING DOOR QT24120110
0240

/A1B,/U1B

3139 247 51410 BUTTON CONTROL (BLACK) QT24751410
0240 /S1G 3139 247 51421 BUTTON CONTROL (GOLD) QT24751421
0244 3139 247 51451 FOOT QT24751451
0245 3139 247 51271 FOOT QT24751271

1005

/A1B,/S1G

3139 248 80390 PSU PCB ASSY DVD2000

(OVS)

QT24880390

1005 /U1B 3139 248 80380 PSU PCB ASSY DVD2000

(USS)

QT24880380

1014 3139 110 34220 FFC FOIL 22P/105/22P BD B QT11034220
1018 3139 110 34230 FFC FOIL 16P/105/16P BD B QT11034230

0384 3139 228 85500 REMOTE CONTROL QT22885500
0385 /A1B 3139 118 73040 MAINS CORD (/A1B) QT11873040
0385 /S1G 4822 321 10249 MAINS CORD (/S1G) QP32110249
0385 /U1B 4822 321 11466 MAINS CORD (/U1B) QP32111466
0387 /U1B 3139 246 10350 USER GUIDE (/U1B) QT24610350
0387

/A1B,/U1B

3139 246 10521 USER GUIDE (/A1B,/S1G) QT24610521

21

22

12. SCHEMATIC DIAGRAM AND PARTS LOCA TION

1111 D1
1205 D2
3150 C1
6204 D1
T134 C1
T135 D1
T136 D1
T137 D2
T138 D2

1

2

3

4

GEEN SYMBOOL

CQW10

STANDBY

D1: Standby PCB (N1B)

To Con 1117 of Display PCB

12

12

A

B

C

D

A

B

C

D

SKQNAB

1111

1205

EH-S

T134

LTL-1CHPE

6204

3150
100R

T137
T138

T136

T135

Volume / Standby PWB

23 24

Display

8-Bit A/D
Converter

Counter

VFT driver circuit (automatic display)

80k pull

down

8-Bit h.break. v.
out w. latch

P8

8-Bit high breakdown voltage
output part ewith latch

P7

8-Bit high breakdown v.
output port with latch

P6

4-Bit In/Output

sink open

drain

out. port w. latch

P9

5-Bit h. breakd. v.

out w. latch PD

8-Bit Input/Output

(tri-state)

P0

3-Bit In/Output
with latch

P2

8-Bit Input/Output
(tri-state)

P0

3-B. I/O P3
sink o.drain

RAM

ROM

Program

CPU

V24
V25

V26

V27

V28

V29

V30

V31

V32

V33

80k pull down

80k pull down
P6-P9 source open drain

80k pull down

source open

drain 80k p.d.

VDD
VAREF

VASS
AIN13

AIN12

AIN11

AIN10

AIN7

AIN6

AIN5

AIN4

AIN3

AIN2
AIN1

AIN0

SCK0

V7V6V5V4V3V2V1

V0

SO1

P03

(tri-state)

P5

8-Bit Input/Output

(tri-state)

P4

8-Bit h. breakdown v.

XIN

-RESET

XTOUT

XTIN

TEST

-STOP

-INT0

-INT1

TC2

-DV0

TC4

TC1

INT2

INT4

SCL

SCA

P04

P05

P06

P07

VSS

XOUT

V34

V35
V36

VKK

-SCK1

SI1

V23

V22

V21

V20

V19

V18

V17

V16

V15

V14

V13

V12

V11

V10

V9

V8

VCD

D

SHUFFLE

CHAPTER TRACK

SCAN A-B

FTS TOTAL TRACK

TRACKTITLE

TIME

CHAPTER

VD

TITLE

W

REPEAT

L

DIGITAL

SURROUND

L

R

CR

SSS

A1 : FRONT DISPLAY PCB

TMP87CH74

7104

11 12

19

VFD GRID14

PLAY

65

PAUSE

to scart

544653

MICRO-

P50

5056 49

17

TO 1205

F127

For DVD732 only

scart PIN 10

INFO : FIL2-FIL1=4.8Vac-RMS

MICRO+

38

30

29
28

27

26
25

42

F126

41

F128

STOP

F116

+5V stb

F117

OPEN / CLOSE

3D SOUND

OPTION

4

PREVNEXT

89

2216 21

39

80

79

STBY - LEDCONTROL

37

36

35

OPTION

7

-40V

1

STBY control

10

VFD GRID 12

34

23

13

5152

63

62 61

70

69

71

72
73

55

75

P50

interface

68

67

(-40V)

33

32

31

10 11 12 13 14

123456

45

44 4348 47

40

OPTION

F118

+12V
GND

20

SCL

SCA

64

66

For DVD 751

only

76
77

5

6

14

15

59

60

24

78

23

VFD GRID 13

18

P50

74

58

123456789

7 8 9 10111213 14

A

B

For models with P50 only

D

E

F

G

H

I

57

C

6789333435363738394041424344454849 5212223242526272829303132

1113

110111213141516171819 220

F204

14-MT-26GNK

F165

F166

2107
33n

F217

F168

3134
330R

27K

3101

F120

3118
10K

F129

F161

F216

F119

F181

2211

BAS216

6100

3107

0R

100p

F121

10K

3140

2128
1n

22u

2130

3100
22K

2119
22p

3145

10K

F153

VKK

2114

22p

3109

SKQNAB

1101

4K7

3126

10R

10R

3128

F164

3138

470R

3105

0R

2131

1n

+5Vstb

2202

1n

+5Vstb

22p

2121

F202

10R

3133

F212

1110

VKK

6101
BZX284-C8V2

3114
10R

3120
470R

2110
33n

F211

F149

VKK

F229

F147

F228

1115

EH-B

1

2

3

4

F232

F187

SKQNAB

1109

22p

2118

F141

33n

2108

SKQNAB

3104

1100

3131

4R7

100K

F104

F137

2201

F179

3113
4K7

33n

2125

22p

10K

3143

4K7

3139

BC847B

7108

F203

2105

33n

1108

SKQNAB

1107

SKQNAB

220p

2100

3106
220R

2101
220p

F178

F107

F177

7112

MC79L24

GND

3

IN2OUT

1

F219

3119
10K

3144

100K

2111
33n

6104

BAS216

VFIL_DC

VFIL_DC

2106
10u

1102

SKQNAB

F201

F180

F150

F244

F245

F183

+5Vstb

VKK

82K

3108

4K7

3110

F241

F243

10R

F242

F200

3122

7109

BC857B

F109

F108

BAS216

6105
3150

4K7

F176

F227

F175

F167

F230

F138
F139

3130

10R

F171

BC327-25

7106

F170

F173

F102

F103

F234

F223

F235

F213

F124

F210

F209

F133

F208

82K

3103

7102

BC847B

10K

3123

7100

BC847B

VKK

+5Vstb

+5Vstby

+12V

F105

1202

1207

3147
10K10K

3146

SKQNAB

1106

2116
33n

10u

2117

2109

VKK

F130

33n

GND

1

OUT

3

VS

2

2115

22p

4K7

3115

7110
TSOP1736

F163

3102
47K

F159

F157

F160

F155

F152

F169

+5Vstb

2

3

100R

3148

100R

3149

1

2

3

4

5

EH-B

1119

1

3121

4K7

EH-B

1116

F123

F122

F132

2129

7107

BC847B

2123

10u

22u

F101

4R7

3117

F100

22u

10R

3127

2124

BC337-25

7105

3112
4K7

F106

3111

4K7

F113

F135

+5Vstby

F114

F221

22p

2120

F222

3132

330R

+12V

F214

PKM13EPY

1112

3136

F218

33n

2122

1K

PH-B
1118

1

2

3

4

5

10R

3129

7101
BC847B

F231

100p

2103

F131

330R

F186

10K

3137

3142

BC847B

BZX284-C10

6102

F151

7103

F154

4

3135
220R

F184

F205

1117

EH-B

1

2

3

F206

F207

F172

F158

F156

3116

82K

10u

2126

3125

10R

F142

F140

F162

F233

F226

1122

SKQNAB

2102
100p

SKQNAB

1121

7202

F125

STBKEY+ STBKEY-

+5Vstb

V15

G14

G13

G12

OUT_P50

IN_P50

V13V14

V15

V14

IN_P50

OUT_P50

STBKEY+
STBKEY-

K_DATA

K_RESET

K_CLK

K_STROBE

FIL1

FIL2

FIL1FIL2

V13

25 26

Display PWB

27 28

Supply and video switching (/N1B)

F276 E4
F277 F2
F278 F2
F279 F3
F280 F2
F281 G1
F401 C14
F500 G11
F501 G12
F502 H11
F503 I12
U182 B6
U183 B8
U185 D13
U228 H2
U229 G3
U230 H2
U275 I2

7901-B G8
7901-C H8
7902-A F10
7902-B G10

7904-A B8
7904-B C8
7904-C D8
7905-A B10

7943 I2
7945 F11
7946 H11

F109 A2
F110 A2
F112 B2
F113 B2
F120 B13
F121 B14
F130 D2
F135 E2
F138 D2
F142 D2
F144 D2

3624 F2
3625 G1
3626 B3
3627 E3

F150 E2
F211 B11
F260 B2
F269 B3

3723 I2
3762 D13
3769 G12
3770 G11

F270 B4
F271 B3
F272 C3

3774 H11
3804 G11
3805 G12

F273 C2

F274 C2
F275 E3

7304 B13
7331 B3
7332 C3
7333 F3
7334 F3
7335 G2
7400 C13
7900-A F6
7900-B G6
7900-C H6
7901-A F8

RGB switching

D

E

F

7902-C H10
7903-A B6
7903-B C6
7903-C D6

B

C

D

E

7905-B C10
7905-C D10
7935 H3

I

1300-1 A1
1300-2 A1

7947 I12
7949 G12
F106 A2

1300-8 B1
1300-9 B1
1301-10 D1
1301-13 D1
1301-14 D1
1301-15 E1
1301-16 E1
1301-2 D1
1301-8 D1
1301-9 E1
2354 B13

VIDEO SWITCHING

123

3695 H2
3696 G3
3720 H2
3722 H2

8 9 10 11

3771 H11
3772 I11
3773 I12

123

6302 C2
6403 C1
6404 D13

7 8 9 1011121314

A

B

C

BLANKING

CVBS SWITCHING

supply

2384 B11

G

H

I

A

2412 B14
2452 C13
2453 C14
2524 B6

F

G

H

2525 B9
2527 A6
2528 A8

1300-3 A1
1300-5 A1
1300-6 B1

2529 A10
2530 C6
2531 C8
2532 F6
2533 G6
2534 C10
2535 F8
2536 F10
2537 G8
2541 B14
2545 C4
3433 B14
3615 B3
3616 B3
3617 C2
3618 C3
3619 C2
3620 E3
3621 F2
3622 F2
3623 F3

4567

SUPPLY &

12 13 14

456

F113

E

6

S

10

Vdd

16

Vee7Vss

8

Y0

2

Y1

1

Z

15

F276

HEF4053BT

7903-B

+6V

-5V

10

3695

10K

1301-10

1301-16
16

L78L33

7400

2

13

+6V

F272

3626

0R

Vdd

16

Vee7Vss

8

Y0

12

Y1

13

Z

14

F271

+6V

HEF4053BT

7902-A

E

6

S

11

U228

U229

7902-B

HEF4053BT

6

E

10

S

16

Vdd

7

Vee8Vss

2

Y0

1

Y1

15

Z

1301-2

2

7943
BC847B

10K

3622

F260

+8VAud

3773

10K

6

E

10

S

16

Vdd

7

Vee8Vss

2

Y0

1

Y1

15

Z

BAS216

6302

7904-B

HEF4053BT

7332
BC857B

F278

F279

F121

56K

3720

2

GND

1IN3

OUT

+12Vstby

7905-A

HEF4053BT

6

E

11

S

16

Vdd

7

Vee8Vss

12

Y0

13

Y1

14

Z

LF80C

7304

1300-9

9

1300-6

6

1300-8

8

1300-3

3

1300-5

5

100n

1301-9

9

3433

0R

2541

U182

F138

22n

25282527

22n

22n

2536

47K

3770

47u

+12Vstby

2453

F273

F503

F274

F269 F270

3V3

-8Vstby

4R7

3615

+12Vstby

3618

1K

10K

3619

10K

3617

2534
22n

7331

BC547B

+6V

220n
2384

E

6

S

10

Vdd

16

Vee7Vss

8

Y0

2

Y1

1

Z

15

F281

HEF4053BT

7905-B

22n

2530

BC847B

7935

F130

1300-2

2

6404

BZX284-C5V1

270R

3762

E

6

S

9

Vdd

16

Vee7Vss

8

Y0

5

Y1

3

Z

4

U185

HEF4053BT

7905-C

14

U183

HEF4053BT

7904-A

E

6

S

11

Vdd

16

Vee7Vss

8

Y0

12

Y1

13

Z

3805

10K

F502

BC847B

7334

14

F501

F500

1301-14

+12Vstby

4K7

3616

BC327-25

F135 F275

7333

3696

10K

+6V

3627

0R

Vdd

16

Vee7Vss

8

Y0

5

Y1

3

Z

4

+6V

HEF4053BT

7902-C

E

6

S

9

F280

3621
4K7

F142

E

6

S

9

Vdd

16

Vee7Vss

8

Y0

5

Y1

3

Z

4

+8VAud

HEF4053BT

7903-C

220n
2524

3769
47K

+12Vstby

+8Vstby

1K

3625

1301-15
15

+12Vstby

BC847B

7949

F120

56K

2531
22n

+6V

3723

10K

3624

U275

+6V

F401

Z

4

7900-C

HEF4053BT

E

6

S

9

Vdd

16

Vee7Vss

8

Y0

5

Y1

3

7946

BC857B

BC847B

7947

3772

47K

3774

47K47K

3771

BC857B

7945

+12V

7900-A

HEF4053BT

E

6

S

11

Vdd

16

Vee7Vss

8

Y0

12

Y1

13

Z

14

Vdd

7

Vee8Vss

12

Y0

13

Y1

14

Z

1300-1

1

7903-A

HEF4053BT

6

E

11

S

16

3623

4K7

7335
BC847B

+6V

-8Vstby

+12Vstby

22n

2533

22n

2535

22n

2532

47K

3804

+12Vstby

U230

8

1301-8

S

16

Vdd

7

Vee8Vss

5

Y0

3

Y1

4

Z

2452
220n

Vee7Vss

8

Y0

2

Y1

1

Z

15

HEF4053BT

7901-C

6

E

9

7

Vee8Vss

12

Y0

13

Y1

14

Z

7901-B

HEF4053BT

E

6

S

10

Vdd

16

HEF4053BT

7901-A

6

E

11

S

16

Vdd

47u

2412

2545

47u

+6V

2525

220n

7904-C

HEF4053BT

6

E

9

S

16

Vdd

7

Vee8Vss

5

Y0

3

Y1

4

Z

220n

2354

4R7

3620

+6V +6V

BAS216

+6V +6V

+6V

6403

13

F211

2529
22n

1301-13

56K

3722

F277

+5V

7900-B

6

E

10

S

16

Vdd

7

Vee8Vss

2

Y0

1

Y1

15

Z

HEF4053BT

+6V

22n

2537

DC_OFF

YCVBSOUT_AUX

-5V

-5V

-5V

-5V

-5V

-5V

YCVBSIN_TV

CVBS

SELECT

YCVBSIN_AUX

YCVBSOUT_TV

CVBS

SELECT

0|6|12

FBIN_AUX

SLB_AUX

B

G

R

CVBS

0|6|12

RCOUT_TV

-5V

-5V

-5V

-5V

-5V

-5V

-5V

-5V -5V

SELECT_HIGH

SELECT_HIGH

G

SELECT

GOUT_TV

GIN_AUX

B

SELECT

BC_TV

BC_AUX

SELECT

SDA

SCL

R

Y_ENC

DC_OFF

SELECT

C_ENC

FBOUT_TV

SLB_TV

0|6|12

RCIN_AUX

-9.5V

-9.2V

-8.6V

-0.6V

0V

-1.2V

0V

+11.5V

+11.2V

+10.8V

0V

0.7V

0V

+6V

0V

0.7V

0.7V

0V

11.4V

8V

8V

3.3V

-5.2V

SELECT:
0V DURING PLAYER SCRIPT: "SCART DVD"
6V DURING PLAYER SCRIPT: "SCART LOOP"

SELECT HIGH:
0V DURING PLAYER SCRIPT: "SCART DVD"
12V DURING PLAYER SCRIPT: "SCART LOOP"

ALL DC VOLTAGES MEASURED
IN STOP MODE.

TP1
TP2
TP3
TP4

TP5

TP6

29 30

Audio A/V MUX (/N1B)

NC

NC

DECODER

BUS

SUPPLY

DRIVER

CONTROL

INTERFACE

DAC’S

VOL/MUTE/DEEMPH

INTERPOL FILTER

NOISE SHAPER

NC

DIGITAL

INTERFACE

U191 E3
U226 C12
U227 D7

F267 H8
F268 G7
F400 A9

F406 B8
F408 B5
F410 B7

F414 A2
F415 D5
F416 D8

F421 D6
F422 B1
F423 D7
F424 E8
F425 B1
F432 C1
F437 D3
F448 G1
F455 G1
F478 I1
F486 H11
F487 H11
F488 H12
F489 H13

3765 H6
3766 C3
3767 C4

F490 H12
F497 E1
F504 E1

5400 H11
6400 H14
6401 C11

F505 G2
U186 C12
U187 B7

7402 A4
7403-A B6
7403-B D6

U188 C3
U189 C3
U190 E3

7405 E8
7406 C8
7407 B8
7917 B12

7944 G7
7948 C4
F139 C13
F141 C13
F176 D12
F177 B12
F180 A12
F181 D12
F265 G8
F266 H7

3445 D9
3446 D7
3447 E7

F403 B5
F404 B6
F405 B8

3454 A5
3455 B5
3456 B7

F411 C8
F412 A4
F413 E9

3462 B7
3463 C8
3464 B6

F417 D8
F418 D5
F419 B1

3511 C1
3512 C2
3517 C7
3519 A3
3610 F8
3611 G7
3612 H7
3613 G7
3614 H8
3631 D7
3632 C6
3634 A4
3635 B11
3764 H6

2373 A12
2450 C6
2455 D4

3768 G7
3802 E1
3803 G2

2459 A5
2460 A2
2461 E6

7329 G8
7330 H8
7401 B2

2469 D2
2471 D3
2472 D3

7403-C A9
7403-D E9
7404 D8

2497 C11
2498 C11
2519 I13
2542 H7
2543 H10
2544 H11
3321 C14
3322 C14
3338 E13
3339 E12
3340 A12
3341 A13
3442 D8
3444 D4

AUDIO SCART SWITCHING

Option L/R

1300-10 G1

3448 D5
3451 E5
3453 E6

1300-14 G1
1300-15 H1
1300-16 H1

3457 B8
3459 B5
3461 B9

1300-20 I1
1300-21 I1
1300-22 I1

3505 H10
3507 H10
3508 H12

1301-11 E1
1301-12 F1
1301-3 D1
1301-4 D1
1301-5 E1
1301-6 E1
1301-7 E1
1402-B D10
1402-C C10
1405 I14
1410 D14
2360 C14
2361 C13
2372 D12

123

2456 D6
2457 D9
2458 D6

789

2462 B6
2463 B9
2464 C6

13 14

1

2488 H14
2495 I13
2496 C11

4567891011121314

A

B

C

D

E

F

1300-11 G1
1300-12 G1
1300-13 G1

G

H

I

1300-17 H1
1300-18 H1
1300-19 I1

A

B

C

1300-4 F1
1300-7 F1
1301-1 D1

D

E

F

G

H

I

456 101112

AUDIO

23

U227

F176

U187

3632

100R

3634

2K2

3519
5K6

100R

3631

10K

100U

2456

3444

10K

3451

3453

F432

10K

F422
F425

F412

F419

12

13

14

4

11

F414

3613

2K7

MC33079

7403-D

BC817-25

7402

3611

4K7

F423

F415

F418

-8Vstby

F411

F405

F410

F406

F400

F408

F404

F478

2463

10K

3461

24573445

10K1n1n

3511

10K

10K

3512

BC817-40

7404

7406

2472
47u

BC817-40

100n

2471

100R

3457

2K7

3463

3447

2K7

100R

3517

6

5

STEREO_R

STEREO_L

YKC21-3930

1402-B

4

3

YKC21-3930

1402-C

+5V

12

F177

BC847B

7329

F141

52030

1300-12

F139

F416

F437

F424

F417

F413

F421

2360

50

2373

4u7

47p

100R

3322

47p

2361

1K

3339

3321

100R

F403

2372

50

4u7

3767

22K

3V3

22K

3766

U191

7948
BC857B

U189

U190

F505

-8Vstby

4R7

3803

F448

F455

2464

+5V

100p

2461
100p

100p

2455
100p

2459

7405

BC817-40

BC817-40

7407

2496

22n

3635

220R

6401

BZX284-C9V1

100u

2498

100R

3442

2497

22u

23R420R519

RO1 12
RO2 14
RO3 16
RO4 18

SCL 27

SDA 28VS3

L14L25L36L49L5

10

LO1 11

LO2 13

LO3 15

LO4 17

78

2122

R125R224R3

1300-15

52030 15

TEA6420

7917

ADDR 26

C2
GND1

1300-13

52030 13

52030

1300-14

14

1300-11

52030 11

52030

1300-18

18

7

52030

1300-10

10

F504

52030

1300-7

1300-4

52030 4

F180

100n

2488

2

34

6

78

3505
100R

+5V

5400
7CHA

1

100n

2495

68R

3508

6400
GP1F32T

3

1

2

F489

F490

2519

100n

2u2

2542

7

47K

3768

1410

EH-B

1

2

3

4

5

6

+8VAud

7330
BC847B

+12V

F488

52030

1300-22

22

2543

47p

2544

10u

3765
10K

21

10K

3764

BC847B

7944

52030

1300-20

20

1300-21

52030

17

1300-19

52030 19

52030

1300-16

16

1300-17

52030

U186

U226

3341

47K

3338
47K

3340

+8VAud

F181

1K

F497

1301-6

52030 6

1301-7

52030 7

52030

1301-5

5

F265

100R

3507

F266

F268

F267

+6V

3455
10K

3610

4K7

3614

22K

52030

1301-3

3

3612
47K

52030

1301-12

12

1301-1

52030 1

1301-11

52030 11

+6V

4R7

3802

2K7

3446

3V3

3448

10K

3V3

2469

22n

+12Vstby

2460

22n

1

3

2

F486

YKC21-3416

1405

VO1P

31VO2N

32VO2P

1VO3 2VO4
4VO5 5VO6

30

VREFA3VSSA

20

VSSD

11 WS

3V3

DS

18L3CLK
19L3DATA
17L3MODE

23MUTE

7
8

15

9STATIC

16 SYSCLK

27 TST1

22TST2

6

VDDA

21

VDDD

29 VO1N

28

7

4

11

7401
UDA1328T

10 BCK

25DEEM0

24DEEM112 DI12
13 DI34
14 DI56

26

2458

7403-B
MC33079

5

6

22n

+8VAud

22n

2450

11

7403-C
MC33079

10

9

8

4

11

+8VAud

MC33079

7403-A

3

2

1

4

-8Vstby

+8VAud

1301-4

52030 4

3456

-8Vstby

-8Vstby

2462

100U

100R

10K

3459

10K

3464

3462

3454
10K

F487

2K7

HP_L

HP_L

HP_R

HP_R

{PCM_OUT0,PCM_OUT1,PCM_OUT2,SCLK,LRCLK,PCM_CLK,DEEM0,DEEM1}

DIG_OUTSTANDBY

KILL

STANDBY

DIG_OUT

HP_L

HP_R

SCL

LIN_TV

LOUT_TV

LIN_AUX

LOUT_AUX

ROUT_TV

ROUT_AUX

RIN_AUX

RIN_TV

SDA

DC_OFF

KILL

KILL

KILL

KILL

KILL

KILL

TP7

TP8

TP9

TP10

TP11

TP12

TP13

TP14

TP15

TP16

TP17

TP18

KILL:

-8V DURING PLAY
+4.8V DURING STOP, NEXT, PREVIOUS

+1.6V

0V

6V

0.6V

0.7V

0V

9.2V

4.6V

TP12

TP12

TP12

TP13

TP14

TP15

TP15

TP15

31

32

Scart panel (N1B)

2383 B3
2385 C3
2395 C5
2402 F5
2404 E5
2408 F5
2409 I5

C

2509 C8
2511 H8
2521 B12
2522 A5
2523 B5

TV-SCART

AUX-SCART

1 10 11 12 13

12

3349 A5
3351 B4
3359 B5
3363 B4
3366 B5
3394 C4
3397 C5

43 11 12 13

A

B

C

D

3638 D9
3639 E9
3640 E8
3641 F8
3642 C8

1304-1 C13
1304-2 C6
1304-3 G13

E

F

G

H

I

A

B

SCART

3675 C11
3676 G10
3677 H11
3678 G3
3679 G3
3680 D10
3681 D10

2499 G5

D

E

F

G

H

I

2507 D9
2508 F8

3692 D4
3693 E4
3694 I4
3697 G4
3698 E11

3313 D12
3314 A11
3315 A11

23456789

3725 F9
3726 E9
3727 G3
3731 C9
3732 I9
3733 H9
3734 F8

3407 E5

5678910

3636 G2
3637 G2

3756 D9
3757 F8
3758 H8
3800 G9
3801 G10

3643 D8
3646 H8
3647 I8

2353 A10
2355 A10
2357 B10
2358 A12
2359 B10
2371 I11
2378 A3
2382 A3

7929 C10
7930 C8
7931 G9
7933 H10
7934 H9
7936 G3
7937 D10

3682 F9

2500 E12
2501 F11
2502 C11
2503 G11
2504 H11
2506 G2

3690 I11
3691 C4

F134 C13
F137 C13
F140 C13
F145 D13
F148 D12

3699 F10
3700 C10
3701 G10

3316 A12
3318 B11
3319 B11
3320 B12
3323 B11
3325 B11
3343 I11
3348 A4

F234 D6
F247 E6
F259 F6
U131 G3
U132 E10
U133 F10
U134 C9

3735 F9

3408 F4
3409 D4
3413 D4
3425 F5
3432 I4
3629 C5

3748 C8
3749 G2

U145 D10
U146 D9
U147 E9
U148 E13
U149 F11

7918 I10
7919 C3
7920 D3

3648 G2
3649 D9
3650 E8
3651 C8
3653 H9
3672 G5
3673 E11
3674 F11

U161 C8
U162 G10
U163 G9
U167 H11
U168 H10
U169 H9
U170 H9

7938 F10

3683 F10
3684 C9
3685 C10
3687 G9
3688 H9
3689 H10

F127 B11
F133 B11

U201 E4
U202 E2
U203 F2
U204 E6
U205 G2

F149 D13
F183 F13
F193 A4

3702 I10
3703 I10
3704 D3
3705 E3
3706 F3
3707 I3
3721 G10
3724 H9

U213 F8

U214 F8
U215 D9
U216 D8
U217 C8
U218 C8
U219 B8

U136 F6

3736 E9

3737 E10
3738 H2
3739 G3
3744 D8
3747 C9

U143 E11
U144 D11

U222 G2
U223 A8
U225 D6
U278 G8
U279 G9

U150 F10
U151 F9
U152 F9

7921 E3
7922 I3
7923 G4
7924 G2
7925 D11
7926 D9
7927 F10
7928 F9

U159 C9
U160 C9

U184 H8
U193 A2
U194 B2
U195 B2
U196 C2
U197 C2

7939 C9
7941 H9
7942 G10
F103 H10
F114 A11
F115 A11

U199 D4
U200 C4

U198 D2

U206 I4
U207 I2
U208 I8
U209 I10
U210 H8
U211 H8
U212 G10

F195 B4
F205 B4
F212 C4
F216 C6
F218 D6
F219 C6
F222 C6
F229 D6

330R

+8Vstby

U137 G4
U138 G4
U139 G3
U140 G2
U141 G2
U142 D13

U220 B8
U221 A8

U153 F8
U154 D13
U155 E13
U156 F13
U157 C10
U158 C10

100R

3689

3653

100R

3688

7941
BC857B

BC847B

7934

2509

2u2

3677
75R

BC847B

7933

3702

1K

U162

U163

U155

U193

2503
220p

100K

3647

U225

100K

3641

100K

3643

100K

3639

7928
BC847B

100K

3646

BC857B

7938

3638

100K

3640

100K

3642

100K

3721
150R

2501

220p

2523

+8Vstby

+8Vstby

220p

100R

330R

3650

3682
100R

3683

U136

1K

3699

75R

3674

+8Vstby

7927
BC847B

+8Vstby

330R

3732

2507

2u2

U223

U220

U221

+8Vstby

U219

U216

U214

U215

U212

U213

U210

U211

+8Vstby

U209

3673
75R

BC847B

7925

3698

1K

3704

6K8

+8Vstby

7919

BC847B

U159

U160

U161

U134

U157

U158

U154

330R

3736

22R

3726

330R

37353725

22R

100K

3636

100K

3637

100K

3758

100K

3749

3756

100K

3757

100K

3748

100K

330R

3739

U141

3727
22R

U140

U131

U139

F137

U137

U138

F115

+8Vstby

+8Vstby

220p

2499

330R

3648

3678

100R

3679
100R

7924
BC847B

BC857B

7936

U218

U217

U279

4K7

3800

U278

+6V

4K7

3801

3705

7920

BC847B

6K8

1K

3692

75R

3432

1K

3691

3409
220R

6K8

3703

3690

7918

BC847B

75R

1K

7942

BC857B

3629

U206

470R

3701

U205

U204

U222

U202

U203

U200

U201

U199

3731
22R

U198

3744

330R

F149

3737
330R

F145

F148

F133

50

2357

F140

F127

1K

3319

4u7

F114

F134

220p

220p

2409

3738

330R

2408

220p

330R

3747

+8Vstby

2521

U184

2511

2u2

U169

U170

U168

F103

U167

3733

330R

3734

330R

22R

3724

75R

3425

3413

47K75R

3408

75R

3407

50

2385

47K

3397

3394
470R

4u7

U208

3676

150R

+8Vstby

U207

BC847B

7931

2u2

2508

+8Vstby

U153

U133

U151

U152

U196

U197

U195

3325
47K

U194

2359

4u7

50

3323

470R

47K

3320

2522

220p

U145

U144

U132

U142

U143

+8Vstby

2500

220p

3649

330R

+8Vstby

U156

47K

+8Vstby

2504

220p

4u7

2383

50

3366

3318

47K

470R

3315

4u7

2355

50

47K

3316

3314

1K

4u7

2353

50

16B

17B

18B

19B

2B

20B

21B

3B

4B

5B

6B

7B

8B

9B

1304-2

1B

10B

11B

12B

13B

14B

15B

15A

16A

17A

18A

19A

2A

20A

21A

3A

4A

5A

6A

7A

8A

9A

1304-1

1A

10A

11A

12A

13A

14A

4K7

3687

3685

3651

330R

+8Vstby

100R

3684

100R

BC847B

7930

+8Vstby

7939
BC857B

3675

75R

U150

3700

1K

U148

U149

2402

220p

220R

3313

U146

U147

75R

3672

1K

3697

7923
BC847B

7922

BC847B

6K8

3707

1K

3694

100R

3681

100R

3680

7937
BC857B

BC847B

7926

3363

1K

2382

4u7

50

47K

3359

470R

3351

50

4u7

2378

47K

3349

1K

3348

F193

F219

F183

F216

+8Vstby

2502

220p

1304-3

0350808190

MT1 MT2

F247

F259

F212

F229

F234

F218

F205

F195

F222

+8Vstby

BC847B

7929

2u2

2506

220p

+8Vstby

2395

220p

2404

2371
220p

220p

2358

6K8

3343
75R

7921

3706

3693

1K

BC847B

-8Vstby

SLB_TV

+8Vstby

-8Vstby

+8Vstby

-8Vstby

+8Vstby

-8Vstby

+8Vstby

-8Vstby

+8Vstby

{ROUT_AUX,RIN_AUX,LOUT_AUX,LIN_AUX,BC_AUX,SLB_AUX,GIN_AUX,RCIN_AUX,FBIN_AUX,YCVBSOUT_AUX,YCVBSIN_AUX}

2.2V

7.4V

7.4V

1.6V

2.6V

2.6V
2V

2.2V

7.4V

7.4V

1.6V

2.6V

2.6V

2V

2.2V

7.4V

7.4V

1.6V

2.6V

2.6V

2V

2.2V

7.4V

7.4V

1.6V

2.6V

2.6V
2V

2.2V

7.4V

7.4V

1.6V

2.6V

2.6V

2V

-0.6V

-0.6V

-0.6V

-0.6V

-0.6V

33 34

CVBS / YC panel (/N1B)

I221 H6
I241 D7
I242 D6
I245 D7
I246 D8
I247 D8
I251 D6
U130 B7
U192 G9
U224 G9
U276 B6
U277 D6

3750 B6
3751 A6
3752 B6

3759 H6
3760 G6
3761 G6

7006 F6
7007 F6

7010 H6
7011 H8
7012 D7
7013 D6
7014 D8
7300 B7
7301 B6
7310 B8
F100 B6
F101 B7
F104 B8
F107 B6
F108 B9
F600 H6
I189 F7
I191 F6
I196 F6

2538 B5
2539 D6
2540 H6

I200 G5
I208 F9
I210 G7

3040 F5
3041 F7
3043 G6

I211 G6
I214 H7

3046 H7
3049 G9

I215 H8
I219 H8

3058 D6
3059 D7
3062 D9
3063 E8
3300 B6
3301 B6
3345 B8
3347 B8
3728 D6
3729 H6
3730 B6
3740 E6
3741 D7
3742 H6
3743 H7
3745 B7
3746 B6

Y/C OUT

9

3753 D6
3754 E6
3755 D6

13 14

A

3763 B7
3999 I1

D

E

7008 F6
7009 G7

H

I

A

B

C

D

E

F

G

H

I

1303 F10
1402-A B9
2032 H8
2377 B9
2505 G9
2520 G9

123

3036 F7
3038 F6
3039 F5

456

3044 F5
3045 G6

78

3050 H8
3056 D6

9 1011121314

12345678 101112

CVBS & YC

B

C

F

G

I208

75R

3049

470n

2032

+5V +5V

I245

3041

8K2

3036
2K2

-5V

22K

7006
BC847B

+8Vstby

3038

+8Vstby

I246

I251

U130

F101

I219

I221

1402-A

2

1

YKC21-3930

+8Vstby

+8Vstby

I196

3301
100R

330R

3300

7301
BC847B

BC857B

7300

1K

3347

75R

3345

7310
BC847B

2505

220p

330R

3743

I241

I211

3742

330R

I242

3760

100K

+8Vstby

220R

3050

I210

I247

I215

+8Vstby

+8Vstby

I214

330R

3043

100R

3045

I189

+8Vstby

1K

3063

100R

BC847B

7014

+8Vstby

+8Vstby

3059

7013

BC857B

7012

100R

3058

BC847B

3056
330R

1303
TCS79

5

6

7

1

3

4

2

7007
BC847B

3729

22R

3039

F600

47K

3040
27K

3759

100K

F107

F100

F104

2540

2u2

F108

220p

2377

330R

3740

100K

3754

+8Vstby

100K

3753

3763

2u2

2539

3745
330R

100R

3746

22R

3730

3752

100K

330R

U276

+8Vstby

3751

100K

3750

100K3761

100K

2538

2u2

3044
22K

BC847B

7008

2520

BC847B

7011

220p

3046
100R

BC857B

7009

3741
330R

7010
BC847B

22R

3728

100K

3755

3062

75R

CVBS

0|6|12

U277

Y_ENC

C_ENC

TP19

TP20
TP21

2.2V

7.4V

7.4V

1.6V

2.6V

2.6V

2V

2.2V

7.4V

7.4V

1.6V

2.6V

2.6V

2V

2.2V

7.4V

7.4V

1.6V

2.6V

2.6V

2V

0.6V

0.6V

35 36

A/V Mux panel (/N1B)

_Z

_A

37 38

A/V board (A1B, /S1G, /U1B)

DRAM

MICOM uF

DSP

IN

DIGITAL

OUT

IN

MIC

IN

TIMING GENE.

OUT

ANALOG

ANALOG

DIGITAL

CONTROL

INTERFACE

DAC’S

VOL/MUTE/DEEMPH

INTERPOL FILTER

NOISE SHAPER

NC

DIGITAL

INTERFACE

EN

G1

1

MUX1~

DRIVER

7007

BC817-25

C1: AV PCB

10

7404-A A7
7404-B C9
7405 E2
7406 H13
F500 E5
F501 E5
F502 E5

3435 C3

Y3

*

I407 D5

I406 B8

Y1

3432 I3
3433 I3

7402-B D5
7403 G7

(3n9)

FOR DVD 741,

FOR DVD732

Y4

Y3

Y2

3436 G7
3437 G7

F547 A13
F548 A13
F549 A13
F550 B13
F551 B13
F552 B13

4418 G3
4440 I2

74HCT157D

5

313

I408 D5
I409 D6

DVD 751

G1

614H

3592 C4

**

L/R No Swap

*

Reserved Parts

*

3412 B7
3413 B7

5400 H11
6411 C4
7000 A3

7001 B7
7002 B8
7003 F10

F503 F5
F504 F5

3452 E11
3453 H12

3434 I3

FOR DVD732

OPTION

3430 G3
3431 I2

Y4

L/R/Swap

#

2

ONLY FOR DVD 732

2424 F6

4400 A2
4401 D2
4402 A7
4403 B8
4414 B3
4415 B3
4416 G3
4417 G3

2436 G12
2437 G13

3438 G8
3439 D7
3440 D9
3441 F10
3442 D7
3443 D9

I400 B2
I401 B4
I402 A6
I403 B4
I404 B6
I405 B12

F545 A13
F546 A13

3402 C1
3403 C1

12 13

1234

Y1 Y2

3404 A4
3405 B4
3406 B4
3407 B5
3408 B6
3411 B6

13

A

3414 A10
3415 A10
3416 D4
3417 D4
3418 E4
3419 E5

7004 F11
7005 D8
7006 E9
7007 G10
7008 G12
7039 C3
7400 B2
7402-A B5

G

H

2407 A7
2408 A7
2409 D4
2410 E5
2411 C5
2412 D6

2425 F7
2426 F7
2428 G5
2429 H3
2430 H4
2431 I2
2434 D12
2435 D13

2422 F2
2423 F6

2438 I10
2439 H10
2440 I13
2441 I12
2442 H13
2445 D5

3444 F11
3445 G10
3446 G11
3447 G12
3448 G13
3449 H10
3450 H10
3451 E10

10 11

I432 H12
I433 I12
I434 H4
I435 I4
I436 I4
I437 I4

5 6 7 8 9 10 11 12

I532 D2
I533 D3

B

C

D

E

F

G

3420 F10
3423 F11
3424 C12
3425 C12
3426 D12
3427 D12
3428 F2
3429 F2

2405 C5
2406 B6

I410 C6
I411 B5
I412 F10
I413 B12
I414 E11
I418 F10

2413 B13
2415 C12
2416 C13
2417 A13
2418 A13
2419 A13
2420 B13
2421 B13

I430 H10
I431 H11

L

1

2447 I3
2448 I3
2449 I4
2450 G4
2507 C5
2508 C6
3400 A3
3401 A3

LEFT

RIGHT

11

I

1002 A13
1003 E4
1400 I13

I442 G7
I443 H7
I444 H8
I446 D13
I447 D13
I450 C13
I529 D13
I530 F13

1401-B B13
1401-C F13
1405 D13
2400 A2
2401 A4
2402 D2
2403 D2
2404 D3

H

I

A

B

C

D

E

F

I532

I419 G10
I421 D8
I422 D8
I423 F13
I424 D9
I425 F12
I426 G11
I429 H10

23456789

I418

+5VD

I529

2411

22n

22K

3434

F550

2437

220p

3441

100R

I431

220p

2436

-5VA

100p

BC817-25

7003

6

7

8

4

+5V

2401

2420

1n

LM833D

7404-B

5

+5VA

I533

3424

10K

4u7

2430

100R

3412

1n

2424

2K7

3446

F500

I422

F502

2418

1n

2416

1n

2

YKC21-3416

1400

1

3

I437

I403

I429

I434

3405

10K

3436

47R

I411

3416
10K

68R

3453

100u

2406

-5VA

3419
10K

2407

100R

3451

F548
F549

22n

I424

3425

10K

2434

470p

EH-B

1003

1

2

3

4

5

3414

I413

100n

2442

3420
2K7

100R

I407

I401

2429

4u7

2K7

3435

2409
100p

3452
100R

100R

3411

18

31

SDI

SDO

28

TEST

41

VDA1

1

VDA2

17

VDD1

24

VDD2

42

VDL

4320

VDX

VR2

15

VRA1

4

VRA2

7

XI

21

XO

22

IFL

38 37

IFS

LI

11

LPFO1

3

LPFO2

6

LPFO3

9

LRCKI

33

30

LRCKO

LZ

12

27 26

MIC1

2

RESN

35

RI

19

RZ

5

AIR

8

AOL

14

AOR

16

BCKI

32

BCKO

29

25

CKS

EMP

39

EXTO

40

10

GNDA1

GNDA2

13

34

GNDD

GNDL

44

GNDX

23

IFD

36

TC9409BF

7403

AIL

2435

470p

+5VA

+5V

BC817-25

4403

2422

7005

2K2

3592

3V3A

22n

+5VA

LM833D

7402-B

5

6

7

8

4

10u

2439

8

4

3433
10K

LM833D

7404-A

3

2

1

2449
82p

I421

1n

2404
47u

2K7

2417

2419

1n

3413

7001
BC817-25

100R

3426

2448

4n7

3404

10K

3407
10K

10K

3406

4400

4416

+5VD

VO4

4VO5 5VO6

30

VREFA3VSSA

20

VSSD

11 WS

F503

7
8

15

9STATIC

16 SYSCLK

27 TST1

22TST2

6

VDDA

21

VDDD

29 VO1N

28 VO1P

31VO2N

32VO2P

1VO3 2

7400

10 BCK

25DEEM0

24DEEM112 DI12
13 DI34
14 DI56

26DS

18L3CLK

19L3DATA

17L3MODE

23MUTE

3427
100R

UDA1328T

I450

2415

1n

I406

47R

3428

3429
47R

I444

3408
2K7

I402

15

GND

8

116

VCC

+5V

74HCT157D

7405

2
3

4

5
6

7

11
10

9

14
13

12

I419

I446

3V3

4401

4418

2410
100p

+5V

4402

4440

3V3A

78

5K6

3401

5400
7CHA

1

2

34

6

GP1F32T

3

1

2

YKC21-4040

1401-C

9

7

8

LM833D

7402-A

3

2

1

8

4

7406

7039
BC817-25

100n

2403

1n

YKC21-3337

1405

1

2

3

-5VA

2423

3415

3423

2K7

3448

10K

100R

I530

2428

22n

22n

2408

3449
100R

-5VA

22n

I423

2447

2400

470n

2431

3n3

3432

10K

3431

10K

I405

2K7

3445

3442

2K7

2405

3430

47R

4415

100p

F546

I443

7006

F545

100R

3440

BC817-25

3403

10K

2425

1n

2507

100u

10K

3447

4414

3439
100R

BC817-25

7004

F504

I425

6411

BAS216

47p

2441

100n

2440

3444
100R

2K7

3443

5
6
7
8

F501

1002

EH-B
1
2
3
4

I430

2413

1n

I410

BC817-25

7002

I435

1n

2421

I408

10K

3418

I426

3400

-8VHP

YKC21-4040

1401-B

6

4

5

2K2

100R

3450

100u
2508

I433

3402

10K

I432

3417
10K

I409

3V3

I442

+8VHP

I412

I414

4417

47p

2438

BC817-25

7000

22n

2402

+5VA

2412

100u

+5VD

2445

22n

3438

47R

2450

22n

F552

F547

I447

F551

I400

I404

I436

2426

22n

BC817-25

7008

Kill

KILL

ST_L

ST_L

HP_R

3437

47R

PCM_CLK

STEREO_MUTE

MICRO

PCM_OUT0

SCLK

HP_L

LRCLK

DIG_OUT

KILL

KILL

KILL

KILL

KILL

PCM_OUT2

PCM_OUT1

KILL

KILL

MICRO

P50

39 40

I2C

B

G

R

BUFFER

OUTPUT

OUTPUT
BUFFER

OUTPUT
BUFFER

ADJUST

LIMITING

PEAK DRIVE

LIMITING

PEAK BEAM

GAMMA

BRIGHTNESS
ADJUST

CONTRAST
ADJUST

SATURATION

LEAKAGE AND
CUT-OFF
CONTROL

BLACK

ADAPTIVE

SYNC
INPUT

SOURCE
SWITCH

Y- MATRIX

Y-CD/

4441

C2: AV PCB

*

*

F

E

D

C

2457 C10

2456 D9

3454 A1

2506 D10

2485 E9

2484 B11

2483 B11

2482 I13

2481 G13

2480 F11

2479 F11

2478 H7

2477 H7

2476 G7

1403-A D14

1402 B14

*

*

*

*

*

I

H

G

2471 F4

2470 F4

11109876

3462 B2

3461 B2

3460 A4

3459 A4

3458 A3

3457 A2

3456 A1

3455 A1

3486 C8

3485 C8

3484 D8

3483 D7

3482 D7

3481 A7

2469 H2

2468 H3

2467 H3

2466 H2

7

G

*

*

*

(BC 848B)

*

*

1312111098

3501 D11

3500 D11

3499 C11

3498 D10

3497 D9

3496 D9

3495 E9

3494 E9

3493 E8

3492 E8

3491 E8

3490 C8

3489 D8

3488 C8

2475 I6

2474 I5

B

A

*

4441 D10

*

4321 12

2453 D3

2452 C3

2451 B4

1404 A14

1403-C H14

1403-B F14

3505 D12

3504 E12

3503 E11

3534 G10

3533 F10

3532 F10

3531 F10

3530 F10

3529 I8

3528 H8

3527 G8

3526 H7

3525 G7

3524 F7

3480 C5

3479 C6

5

654321

1413

14

2463 G2

2462 G2

2461 G2

2460 E13

2459 E12

2458 C11

3542 H10

3541 H10

3540 H10

3539 F13

3538 G13

3537 F12

3536 G11

3535 G10

4424 G9

4423 F9

4422 F9

4421 H8

4420 G8

4419 G8

3487 C8

3518 F3

F

E

D

C

B

A

I

H

2455 D8

2454 C5

3468 C4

3467 B4

3466 C3

3465 C3

3464 B3

3463 B3 5004 I14

5003 G14

5002 E14

4431 D14

4430 H14

4429 F14

4428 H13

4427 I12

4426 F13

4425 F12

7023 D13

7022 D12

7021 D11

7020 D7

3523 I6

3522 I5

(BC 848B)

1%

1%

OPTIO N

470R

(BC 848B)

(BC 848B)

0R

2465 G3

2464 G2

3475 D4

3474 D2

3473 D2

3472 D2

3471 C2

3502 D12

6413 C6

I456 B3

I455 C2

I454 B2

I453 A2

I452 B1

I451 A2

7409-C C9

7409-B F11

7409-A H11

7408 F3

7029 H13

7028 F13

7027 I8

3594 C10

3593 C12

1%

1%

1%

(39R)

1%

1%

2473 I4

2472 F6

3470 C2

3469 C5

3511 H2

3510 I1

3509 I1

3508 H1

3507 E13

3506 E12

I464 C5

I463 C5

I462 B4

I461 B4

I460 A5

I459 B3

I458 D4

I457 B3

I488 I14

I487 H14

I486 F14

I485 F14

I484 G10

I483 F10

7019 D5

7018 C5

1%

(BC 848B)

(BC 848B)

(BC 848B)

(BC 848B)

(BC 848B)

1%

3478 E6

3477 D5

3476 E5

3548 I13

3547 H12

3546 I11

3545 I10

3544 I10

3543 H10

*

I507 B2

I502 I5

I501 I5

I500 H12

I499 F12

I498 E5

I497 D5

I496 A3

I495 C4

I494 C3

I493 C3

I492 D2

I491 D2

7026 H8

7025 F8

ONLY FOR DVD751

*

*

*

3517 H2

3516 H2

3515 H2

3514 H2

3513 G2

3512 G2

6412 C6

6404 I13

6403 G13

6402 E13

6401 E5

6400 D4

I466 A11

I465 A11

*

*

*

*

*

*

I480 G3

I479 G3

I478 E14

I477 D14

I476 E13

I475 D12

I482 F10

I481 G3

(BC 848B)

(BC 848B)

1%

ONLY FOR DVD751

(BC 848B)

3521 I5

3520 F5

3519 F3

3550 E3

3549 H13

7014 B4

7013 B3

7012 B2

7011 A2

7010 A3

7009 B2

470R

750R

560R

(BC858B)

(BC858B)

BC848B

BC848B

7024 I2

I472 D10

I471 C8

I470 A14

I469 B11

I468 B10

I467 B13

I490 C2

I489 C1

*

*

3591 H8

3590 H8

3589 G7

3588 G8

3587 G8

3586 D4

3552 C3

3551 D2

I474 D11

I473 D10

*

*

*

*

(BC 848B)

*

Reserved Parts

7017 C4

7016 C2

7015 C1

10K

3590

I463

BC857B

2478

220n

820R

3473

7016

7029

7010
BC847B

220p

2482

15K

3455

I454

+5VVID

680R

6K8

3463

3469
100R

3466

220p

BZX284-C15

6413

BC847B

7011

2457

-5V

3501

6K8

3456

22K

-5V

I498

5

6

7

1

3

4

2

TCS79

1404

10K

3454

I490

I451

I492

I493

I489

2K21K

3588

6404

BZX284-C15

3587

270R

3470

100R

3471

75R

3549

220p

2483

I456

4430

I462

0|6|12

4423

6412

BZX284-C15

3480

3460

8K2

75R

BZX284-C15

6401

3478

3497

2K2

3476

-5V

I457

1K

DSS306

2

13

3548

330R

100R

3547

5004

470n

2454

BZX284-C15

6403

7028

-5V

330R

3538

3543

100R

3537

3541

1K

3545
5K6

1K2

2467

10n

BC847B

I472

47p

2456

7021

7009

3481
75R

BC847B

7018

BC847B

2484
220p

I497

2K2

3494

+5VVID

+5VVID

33R

3492

3586

2K2

+5VVID

2

1

3475
100R

BC847B

7019

4431

YKC21-3930

1403-A

1K

3489

I480

I479

7024
BC847B

3591

10K

3496

750R

75R

3516

I461

22K

3511

100u

25

2452

+5VVID

+5VVID

I470

3495

1K

3493

1K

3458

470R

4K7

3510

I455

I491

220p

2481

I494

I495

8K2

3459

2451
470n

+5VVID

I468

1K2

+5VVID

3484

3487

2K2

3498
100R

430R

3485

RGB2

1

RO

24

SC

14

SCL28SDA

27

VCC

5

8

Y

y|HUE

26

4

BCL

15

BO

20

CLAMP1

25

CLAMP2

23

CLAMP3

21

16

CPDL

CPDST

18

G1

11

G2

3

GND

9

GO

22

R-Y

7

R1

10

R2

2

RGB1

13

7408
TDA4780

17 19

B-Y

6

B1

12

B2

7017
BC847B

I477

+5VVID

I464

75R

3479

3474

4K7

-5V

220p

I474

6402

BZX284-C15

2458

3539
75R

I507

-5V

3550
100R

5003

2

13

22K

3457

DSS306

820R

3464

7013

BC857B

I460

3488

I465

3486

33R 470R

3520

10K

2471

100n

2470

100n

3527

BC847B

7026

I502

2K2

7025
BC847B

2453

100u

25

3461
270R

75R

3477

I458

2460

220p

7015
BC847B

3468

I467

I469

100R

3482

3499

270R

2K2

3483

I484

100R

3552

I482

I481

10n

2465

470n

5K6

3518

3531

2463

4429

1403-B

YKC21-3930

4

3

1K

+5VVID

I478

7012
BC847B

680R

3551

12

13

14

4

11

I471

3506

2K2

AD8073

7409-C

3467

3504

680R

7

9

10

-5V

100R

YKF51

1402

6

1

8

3

4

2

5

I466

I496

2477

220n

10n

2466

100n

2472

1K

3536

2480
22n

3519

1K

2479

470n

2506

1K

1K5

3533

22n

+5VVID

3530

4427

2K2

3529

470n

2462

100R

3462

BC857B

7022

7409-B

10

9

8

4

11

I501

6400

BZX284-C15

AD8073

I499

5002

DSS306

2

13

I486

7023
BC847B

+5VVID

7014
BC847B

75R

3507

47p

-5V

I500

2455

I483

3534 3535

2K2

AD8073

7409-A

5

6

7

4

11

4425

3594

470K

3593

47R

5

I487

I485

1403-C
YKC21-39306

3526
100R

4424

I459

4422

2475

I473

2473

47p

470n

3472

6K8

10n

2469

220n

2476

3503

100u

2459

1K

3490

4K7

100R

3505

I453

3502

820R

3524
100R

3509

4K7

10R

3532

4428

4426

3525
100R

3528

2K2

10K

3589

3513

75R

3517

3512

430R

3491

22K

I476

22K

2464

10n

7027

BC847B

BC847B

7020

100R

2461

470n

3544

3522

4K7

3508

4419

I488

2485

47p

3542

-5V

-5V

+5VVID

3465
4K7

4420

3500

100R

82K

3523

4421

47p

100R

3521

I475

2474

1K

1K

3540

10n

75R

3515

3546

22K

3514

2468

I452

C

Y

SCL

Vout

-5V

+5VVID

-5V

-5V

+5VVID

+5VVID

Bo

Go

Ro

+5VVID

B

G

R

-5V

+5VVID

Y

+8V_VID

SDA

Uout

H_SYNC

+8V_VID

G

B

R

+8V_VID

-5V

-5V

-5V

+5VVID

R

G

B

-5V

+5VVID

Bo

Go

Ro

+6Vstby

+6Vstby

A/V board (A1B, /S1G, /U1B)

41 42

C3 : AV PCB

100u

7401 E2
7411 C6
7412 B6
7413 A4
F508 A1
F509 A1
F510 A1
F511 A1
F512 A1
F513 B1
F514 A2
F515 B1
F516 C2
F517 B1

F525 E1
F526 E1
F527 F1
F528 F1

3582 H8
3583 H9
3584 B5
4411 B6
4434 C4
4435 G10
4436 H10
4437 C6
4438 C7
4439 A5
5000 G10
5001 H10
6405 B2
6406 B3

F529 F1
F530 F1
F532 F1
F533 F1

F534 G1
F535 G1
F536 G1
F537 G1
F538 G1
F539 G1
F540 G1
F542 H1
F543 H1
F544 H1
I503 B3
I504 B3
I505 A4

7038 H8

2503 B6
2504 C7
2505 B8
3553 A3
3554 A3
3555 B3
3556 B4
3557 A5
3558 A8
3559 A8
3560 B8
3561 E2
3562 D2
3563 D3

F518 B1
F519 C1
F520 C1
F521 C1
F522 C1
F523 E1

*

(BC 848B)

(BC 8 4 8 B)

FOR KOK ONLY

(BC8 5 8 B)

*

FOR

*

F524 E1

3581 G8

4 5 6 7 8 9 10 11

1 23456

6407 A5
6408 H8
6409 D2
6410 H8
6414 D4
7030 A4

COLOR SETTING

(BC 8 4 8 B)

7031 B4
7032 A9
7033 D4
7034 E3
7035 G5
7036 G6
7037 G7

2502 B5

A

B

C

D

E

F

G

H

1000 A1
1001 E1
1401-A G11
2486 A5
2487 A6
2488 D4

3566 E1
3567 F1
3568 F2
3569 G2
3572 G5
3573 G5

(BC 848B)

(BC337-40)

*

*

3574 G6
3575 G6
3576 H6
3577 H6
3578 G7
3579 H7
3580 G7

3

I510 A9
I511 E2
I512 D4
I514 D5
I515 C6
I516 G5
I517 G6
I518 G5
I519 G6
I520 H6
I521 G7
I522 G7
I523 G8
I524 H8

7891011

2494 F2

*

#

#

#

(BC 848B)

2495 G2
2496 G2
2499 H6
2500 H11
2501 H11

H

I531 B6

#

FOR DVD 732

*

Reserved Parts

*

A

B

C

D

E

F

G

I506 A4

2489 D5
2490 D6
2491 D7
2492 E2
2493 E3

*

#

*

*

*

*

*

(BC858B)

*

12

I509 A8

LF33CV

7401

GND

IN OUT

0R

I525 H9
I526 G11
I527 H11
I528 G11

3553

I509

10K

3567

4R7

I506

4434

I505

270R

3572

I504

F508

47u

F542

F533

2493

F530

F532

I531

I526

0|6|12

I519

4439

I527

4K7

3556

3554

4K7

F544

I515

F539

3579
100R

220p

2500

F526
F527

F519

100u

+5VVID

3569

4R7

2496

I522

I520

I521

3576
4K7

680R

3577

10u

2492

I517

I518

-5VA

BC847B

7036

BC857B

F511

F535

7037

I514

2501

I528

75R

3583

220p

BZX284-C15

6410

3

1

2

4435

F525

F534

YKC21-4040

1401-A

+5VVID

I524

-5V

I516

I523

F523

7412

GND

IN OUT

2505
100u

25

4R7

4411

MC79M05

100u

2504

3584

10u

2503

25

10u

22u

2502

2490

4K7

3562

13

DSS306

5001

2

13

DSS306

5000

2

3563

4K7

3561

+6Vstby

2K2

7032

BC847B

7034

100u

2494

BC847B

6K8

3574

BC847B

F522

100R

3573

7035

3581

2487
100u

25

6408
BZX284-C15

75R

+6Vstby

-5V

47u

2491

F509

10u

2489

GND

IN OUT

F536

7411

LF80CV

-5V

4K7

3559

F537

100R

4436

3578

7033
BC547B

I525

4R7

3557

6409

BAS216

BAS216

6407

4437

3568

6405

BAS216

47u

2486

9

2K2

3582

1

10

11

12

13

14

15

16

2

3

4

5

6

7

8

7031

52030

1000

25

100u

2499

-5V

BC857B

BC547B

7413

F520
F521

F517
F518

F515

2K2

3580

F513

F543

F512

2K7

3560 3558

4K7

F529

F538

F528

+8VHP

F524

F516

I510

-8VHP

I511

2495

7038
BC847B

4R7

3566

I512

5
6
7
8
9

+8V_VID

F514

11
12
13
14
15
16
17
18
19

2

20
21
22

3
4

1001

1

10

6406

3575
820R

7030

BC817-25

BAS216

I503

3555
4K7

2488

470n

4438

6414

BZX284-C9V1

F540

F510

CVBS

CVBS_2

CVBS_1

3V3

+5VD

+5V

+5VVID

P50

KILL

PCM_OUT0

LRCLK

SCLK

PCM_CLK

B

STEREO_MUTE

DIG_OUT

G

R

CVBS

+5VA

H_SYNC

PCM_OUT2

PCM_OUT1

SCL

SDA

+6Vstby

C

Y

DC_OFF

+5V +6Vstby

DC_OFF

DC_OFF

CL06532021_008.eps

230200

A/V board (A1B, /S1G, /U1B)

43

44

A/V Pwb (A1B, /S1G, /U1B)

45 46

A/V Pwb (A1B, /S1G, /U1B)

47 48

12. TROUBLESHOOTING

DISPLAY PCB OK.

NO DISC

POWER ON

DISPLAY?

Check presence of high pulses at pin 23 of IC7104 while pressing a key on remote control.
Check IR receiver 6610.
Check safety resistor R3131.
Diagnostic software “Player script” : Remote control test.

Check if voltage at connector 1117-1 is 4.9V when power on (no light)
Check if voltage at base of Tr 7109 is 4.9V when power on (no light).
Check if voltage at connector 1117-1 is 3.33V during standby (light).
Diagnostic software “Player script” : LED test.

Check matrix scanning at pin 36 and 37: see test instructions.
Check matrix scanning at pin 26,27,28,29,30,31,32,33.
Diagnostic software “Player script” : Keyboard test.

Check supply voltages

The display pcb uses a 24V stabiliser(7112) in combination with a 10V zenerdiode(6102).
Check input voltage: at connector 1115-4: -40V 5%
Check output voltage at anode of Diode 6102: -10V 5%
Check stabilizer 7112 output (VKK): -34V 7%
Check +5Vstb voltage at connector 1115-3: +5V 5%
Check safety resistor R3117
Check +12V at connector 1115-1: +12V 10%

Check filament voltage

AC voltage is created via uP output pin 19 generating a 42kHz (duty cycle 45/55) square

signal.
Check frequency : 42kHz 10%
Check buffered square output at emitter of transistor 7105; low level: 800mV, high level:

10.7V

Check DC decoupling: check RMS voltage between FIL1 and FIL2 lines:

3.9Vrms<Vfil<5.2Vrms

The Vfil_DC level at kathode of diode 6101 should be –25.8V 10%

Check oscillator frequency of 8MHz at pin 8 of IC7104
Check reset circuit around transistor 7108: see test instructions of reset circuit.
Check timing and level for all grid lines(G1 G14): see test instructions grid lines.
Check timing and level of segment lines(P1 P10): see test instructions segment lines.
Diagnostic software “Player script” : Display test.

NO

YES

Key Function

NO

YES

Standby LED off?

YES

Remote control?

NO

YES

NO

Testing of A/V board can be done using diagnostic software “Player script”.
Mono board is used to generate a sinus with the soundtest SND-2 or a VIDEO signal with the picture test PIC-1.
See description in chapter “Diagnostic Software : Script Interfaces”

SOUND OK

Diagnostic Software

NO SOUND ON

AUDIO CINCH 1402

POWER SUPPLY?

Check DAC IC 7401
Check C2455, C2459, C2461, C2464 NP0 TYPE?
Check OPAMP 7403

Check ELCO'S 2456, 2462
Check OPAMP 7403
Check KILL transistors 7404, 7405, 7406, 7407
Check resistors 3453, 3464

Check OPAMP 7403
Check KILL transistors 7404, 7405, 7406, 7407

Check DAC IC 7401
Check VREFA on pin 30 of DAC 7401

Check testpoints 7, 8, 9, 10
Check flex connection to mono board
Check mono board

Check supply voltages 3V3(7400), +8Vaud(7304), -8Vstby,
+12Vstby

Check flex connection to mono board.

NO

YES

PCM_OUT0

LRCLK, SCLK

PCM_CLK

NO

YES

NO

YES

AUDIO

CINCH OUTPUT

TP 13?

NO

YES

AUDIO
TP 12?

NO

YES

LEVEL OK?

YES

N0

DISTORTION?

To put set in “Player script”, press keys
STOP+OPEN/CLOSE simultaneously and connect to
mains. Proceed until display shows “”.

AUDIO PART

TROUBLESHOOTING DISPLAY BOARD

TROUBLESHOOTING A/V BOARD

APP SND-2

APP SND-2

49 50

SOUND OK

Diagnostic Software

NO SOUND ON

TV- & AUX-SCART

AUDIO TP14?

Check supply voltage of IC7917(D6401)
Check Scart switching IC7917
Check Elco's 2372, 2373

Check OPAMP 7403

NO

YES

AUDIO
TP 15?

NO

YES

To put set in “Player script”, press keys
STOP+OPEN/CLOSE simultaneously and connect to
mains. Proceed until display shows “ ”.

DIGITAL OUT OK

Diagnostic Software

NO DIGITAL OUTPUT

DIG_OUT TP11?

Check digital trafo L5400

Check flex connection to mono board
Check mono board

NO

YES

DIGITAL OUT

TP18?

NO

YES

To put set in “Player script”, press keys
STOP+OPEN/CLOSE simultaneously and connect to
mains. Proceed until display shows “ ”.

OPTICAL OUT?

Check +5V supply(R3803)
Check optical transmitter 6400

APP SND-2

APP SND-2

APP SND-2

APP SND-2

VIDEO PART OK

Diagnostic Software

NO PICTURE

CVBS & Y/C OUT

POWER SUPPLY?

Check VIDEO buffers
See test instructions

Check VIDEO buffers
See test instructions

Check flex connection to mono board
Check mono board

Check supply voltages +8Vstby, –8Vstby, +12Vstby, +6V,
+5V

Check voltage regulator 7304
Check safety resistors 3615, 3620, 3802, 3803
Check flex connection to mono board.

NO

YES

VIDEO
TP1-6?

NO

NO

YES

YES

NO

YES

VIDEO

Y/C OUT

TP20-21?

VIDEO

CVBS CINCH

TP19?

To put set in “Player script”, press keys
STOP+OPEN/CLOSE simultaneously and connec t to
mains. Proceed until display shows “ ”.

VIDEO PART

APP PIC-1

APP PIC-1

51

52

SCART SWITCHING

OK

Diagnostic Software

NO PICTURE SCART

SCART SWITCHING

PICTURE TV?

Check “0/6/12” on connector 1300-8 = +10V

Check flex connection to mono board

Check “SELECT” = 0V, “SELECT HIGH” = 0V

Check transistors 7935, 7943
Check switches 7900-7905

Check “SLB_TV: 9V, “FBOUT_TV: 5V

Check video buffers, see test inst ructions.

NO

YES

NO

YES

PICTURE

AUX/VCR IN

ON TV?

To put set in “Player script”, press keys
STOP+OPEN/CLOSE simultaneously and connec t t o
mains. Proceed until display shows “ ”.

Diagnostic Software

press NEXT. Display shows:” Pressing
PREVIOUS will return to “

Check “0/6/12” on connector 1300-8 = 0V

Check flex connection to mono board

Check “SELECT” = 6V, “SELECT HIGH” = 12V

Check transistors 7935, 7943
Check switches 7900-7905

Check “SLB_TV = 0V, “FBOUT_TV = 0V .

Check video buffers, see test inst ructions.

SCART DVD

SCART DVD

SCART DVD

SCART LOOP

SCART LOOP

PM3392A

ch1

CH1 200mV~ MTB20.0us ch1+

1

TP 1 : video B

PM3392A

ch1

CH1 200mV~ MTB20.0us ch1+

1

TP 2 : video G

PM3392A

ch1

CH1 200mV~ MTB20.0us ch1+

1

TP 3 : video R

PM3392A

ch1

CH1 200mV~ MTB20.0us ch1+

1

TP 4 : CVBS

PM3392A

ch1

CH1 200mV~ MTB20.0us ch1+

1

TP 5 : C_ENC

PM3392A

ch1

CH1 200mV~ MTB20.0us ch1+

1

TP 6 : Y_ENC

PM3392A

ch1

CH1 2 V~ MTB 500ns ch1+

1

PM3392A

ch1

CH1 2 V~ MTB10.0us ch1+

1

PM3392A

ch1

CH1 2 V~ MTB 100ns ch1+

1

PM3392A

ch1

CH1 2 V~ MTB 100ns ch1+

1

PM3392A

ch1

CH1 2 V~ MTB 100ns ch1+

1

TP 11: DIG_OUT

PM3392A

ch1

CH1 1 V~ MTB 500us ch1+

1

TP 12 : ANALOG OUTPUT DAC

PM3392A

ch1

CH1 1 V~ MTB 500us ch1+

1

TP 13 : ANALOG OUTPUT AUDIO CINCH

PM3392A

ch1

CH1 1 V~ MTB 500us ch1+

1

TP 14 : ANALOG OUTPUT AUDIO HP_R & HP_L

PM3392A

ch1

CH1 1 V~ MTB 500us ch1+

1

TP 15 : AUDIO SCART SWITCH OUTPUT

PM3392A

ch1

CH1 2 V~ MTB50.0ms ch1+

1

PM3392A

ch1

CH1 2 V~ MTB50.0ms ch1+

1

PM3392A

ch1

CH1 200mV~ MTB 200ns ch1+

1

PM3392A

ch1

CH1 500mV~ MTB20.0us ch1+

1

TP 19 : CVBS_OUT

PM3392A

ch1

CH1 50mV~ MTB20.0us ch1+

1

PM3392A

ch1

CH1 500mV~ MTB20.0us ch1+

1

TP 21: C_OUT

TP 20: Y_OUT

TP18: DIGITAL OUT

TP17: SCL

TP16: SDA

TP8: LRCK

TP9: SCLK

TP10: PCM_CLK

TP7: PCM_OUT0

53

13. DIAGNOSTIC SOFTWARE : SCRIPT INTERFACES

13.1 DEALER SCRIPT

13.1.1 Purpose of Dealer Script

The dealer script can give a diagnosis on a standalone DVD
player; no other equipment is needed to perform a number of
hardware tests to check if the DVD player is faulty. The
diagnosis is simply a "error" or "pass" message; no indication
is given of faulty hardware modules. Only tests within the scope
of the diagnostic software will be executed hence only faults
within this scope can be detected.

13.1.2 Contents of Dealer Script

The dealer script executes all diagnostic nuclei th at do not
need any user interaction and are meaningful on a standalone
DVD player.
The nuclei called in the dealer script are the following (the
number after each nucleus name corresponds with the number
being on the local display when the nucleus is executed during
the dealer script):

Figure 13-1

Figure 13-2

VideoColSetupComm Checks the I2C interface with the RGB video processor on the

Audio/Video board (only for DVD players with RGB video processor).

VideoScartSwComm Checks the I2C interface with the scart switch on the Audio/Video

board
PapChksFl Calculate and verify checksum of FLASH memory.
PapDramWrR Pattern test of all locations in the DRAM(s).
PapI2cDisp Checks the I2C interface with the slave processor on the display PCB.
PapS2bEcho Checks the I2C interface to the basic engine.
PapI2cNvram Checks the I2C interface with the NVRAM.
PapNvramWrR Pattern test of all locations in the NVRAM
CompSdramWrR Pattern test of all locations in the SDRAM(s).

Nucleus

Description

Press 2 keys simultaneously

<OPEN/CLOSE> + <PAUSE>

Connect to mains.

During the test, the following display
is shown: the counter counts down
from the number of nuclei to be run
before the test finishes. Example:

SET O.K.?

YES

NO

To exit DEALER SCRIPT ,disconnect from mains.

54

13.2 PLAYER SCRIPT

13.2.1 Purpose of Player Script

The Player script will give the opportunity to perform a test that
will determine which of the DVD player's modules are faulty, to
read the error log and error bits and to perform an endurance
loop test. To successfully perform the tests, the DVD player
must be connected to a tv set to check the output of a number
of nuclei. For DVDv2b a multi-channel amplifier, a set of 6
boxes and an external video source are necessary to test. To
be able to check results of certain nuclei, the player script
expects some interaction of the user (i.e. to approve a test
picture or a test sound). Some nuclei (e.g. nuclei that test
functionality of the Basic Engine module) require that the DVD
player itself is opened, to enable the user to observe moving
parts and approve their movement visually. Only tests within
the scope of the diagnostic software will be executed hence
only faults within this scope can be detected.

13.2.2 Contents of Player Script

The player script contains all nuclei that are useful on a DVD
player that is connected to a tv-set and help to determine which
module of the DVD player is faulty, as well as to read out the
contents of the error logs.

13.2.3 Structure of Player Script

The player script consists of a set of nuclei testing the three
hardware modules in the DVD player: the Display PWB, the
Digital PWB and the Basic Engine.
Nuclei run by the player test need some user interaction; in the
next paragraph this interaction is described. The player test is
done in two phases:

1. Interactive tests: this part of the player test depends
strongly on user interaction and input to determine nucleus
results and to progress through the full test. Reading the
error log and error bits information can be useful to
determine any errors that occurred recently during normal
operation of the DVD player.

2. The loop test will perform the same nuclei as the dealer
test, but it will loop through the list of nuclei indefinitely.

13.2.4 Survey

Figure 13-3

SLEDGE TEST

BeSledgeOut/In(41ab)

FOCUS TEST

BeFocusOn(38a)

DISC MOTOR TEST

BeDiscMotorOn(39a)

RADIAL TEST

BeRadialOn(40a)

JUMP TEST

BeGroovesIn/Mid/Out(42abc)

Press 2 keys sim u l taneously
<OPEN/CLOSE> + <STOP>

Connect to main

s

To exit player test,
disconnect from mains

INTERACTIVE TESTS

DISPLAY TEST

DispDisplay(30)

LED TEST

DispLed(29)

KEYBOARD TEST

DispKeyb(27)

SCART LOOP TEST

AudioPinkNoiseOn(20a)
VideoScartSwDvd(54a)

VideoColDencOn(23a)

PICTURE TEST

DISPLAY PCB

MONO PCB(SERVO)

& BASIC ENGINE

MONO PCB

DIGITAL PART

TRAY TEST

BeTrayOut/In(43ab)

VERSION NUMBER

BeVer(37)

REMOTE CONTROL

DispRc(28)

TRAY TEST

BeTrayOut/In(43ab)

ERROR LOG & BITS

LogReadErr(31)
LogReadbits(32)

LOOP TEST

= Dealer script exclusive of test2

AudioSineOn(21a)

SOUND 1 TEST
SCART DVD TEST

SOUND 2 TEST

VideoScartSwPass(54b)

55

14. INTERACTIVE TESTS

14.1 DISPLAY PCB

14.1.1 DISPLAY TEST

The display test is performed by nucleus DispDisplay. By
putting a series of test patterns on the local display, the local
display is tested. To step through all different patterns, the user
must either press PLAY (pattern is ok) or PAUSE (pattern was
incorrect) to proceed to the next pattern. The display of
patterns is continued in a cyclic manner until the user presses
NEXT. If the user presses NEXT before all display patterns are
tested, the DispDisplay nucleus will return TRUE (display test
successful).

14.1.2 LED TEST

The LED(s) on the DVD player is (are) tested by nucleus
DispLed. The user must check if the LED(s) is (are) lighted; if it
is, press PLAY, if it is not, press PAUSE. By pressing NEXT the
script will proceed to the next test. If the user presses NEXT
before PLAY or PAUSE, the DispLed nucleus will return TRUE
(LED test successful).

Figure 14-1

14.1.3 KEYBOARD TEST

The keyboard of the DVD player is tested by nucleus
DispKeyb. The user is expected to press all keys on the local
keyboard once. The code of the key pressed is shown on the
local display (1 hexadecimal digit) immediately followed by a
(hexadecimal) number indicating how many times that key has
been pressed. Example of the local display during this test:

Figure 14-2

The key-codes displayed on the local display will scroll from
right to left when the display gets full, the text "tb-" will remain
on display.

Figure14-3

If any keys are detected more than once (due to hardware
error), the key-code is displayed twice (or more), with the
second digit increased by 1.
If the user does not press all keys minimally once (in any order),
the DispKeys nucleus will return FALSE and cause an error in
the overall result of the player script.
The user can leave the keyboard test by pressing the NEXT
key on the local display of the DVD player for at least one full
second.
The result of the keyboard test is shown on local display as
follows:

Figure 14-4

Or

Figure 14-5

Pressing NEXT on the local keyboard again will proceed to the
next text.

14.1.4 REMOTE CONTROL TEST

The remote control of the DVD player is tested by nucleus
DispRc. The user must press any key on the remote control just
once. The codes of the key pressed will be shown on the local
display in hexadecimal format. Example:

Figure 14-6

If OK, press PLAY If NOK, press PAUSE

If OK, press PLAY If NOK, press PAUSE

If OK, press PLAY If NOK, press PAUSE

press NEXT to continue

key id. key
0PLAY
1NEXT

2 PREVIOUS

3 PAUSE
4STOP
5

SOUND

6

OPEN / CLOSE

56

In this example 23 is the hexidecimal code of the pressed RC
key. The user can leave the remote-control test by pressing
NEXT on the local keyboard of the DVD player. The remote
control test is successful if a code was received before the user
pressed the NEXT key; pressing the NEXT key before pressing
a key on the remote control gives an error in the remote control
test (note that the remote control test will also fail if a key on the
remote control was pressed but no code was received). The
remote control test does not check upon the contents of the
received code, that is it will not be checked if the received code
matches the key pressed. If desired, the user can manually
check this code by using a code-table for the remote control
key-codes.

Figure 14-7

After pressing NEXT, the result of the remote control test is
displayed on the local display of the DVD player as follows:

Figure 14-8

Or

Figure 14-9

Pressing NEXT on the local keyboard again will proceed to the
next test.

14.2 MONO PCB DIGITAL PART

14.2.1 PICTURE TEST

The picture test is performed by putting a predefined picture
(colour bar) on the display (nucleus VideoColDencOn) and
asking the user for confirmation. The display will show the
following message:

Figure 14-10

By pressing PLAY the user confirms the test, pressing PAUSE
will indicate the picture was invisible or incorrect. Pressing
NEXT will proceed to the next test

14.2.2 SOUND 1 & SCART DVD TEST

The first soundtest is performed by starting a pink noise sound
that needs confirmation from the user (nucleus
AudioPinkNoiseOn); the display will show the following
message very shortly:

Figure 14-11

This sound will only be audible from version cut3.1 of
Sti5505(item7503 on mono board) onwards. After starting up
sound 1, SCART loop-trough will be simultaneously active
during this test. SCART loop-trough will be measured with the
aid of an external video source.
When entering the SCART loop-trough, the local display
indicates:

RC Key id Hexadecimal code
STANDBY

C

STOP

31

PLAY

2C

PAUSE

30

NEXT

20

PREVIOUS

21

CURSOR UP

58

CURSOR DOWN

59

CURSOR LEFT

5A

CURSOR RIGHT

5B

OK

5C

0

0

1

1

2

2

3

3

4

4

5

5

6

6

7

7

8

8

9

9

ANGLE

85

AUDIO

4E

SUBTITLES

4B

ROOT MENU

54

OSD ON/OFF

F

RETURN

83

SHUFFLE

1C

REPEAT

1D

A/B REPEAT

3D

57

Figure 14-12

On the TV screen a colour bar (generated by nucleus
VideoColDencOn) is visual and the internally generated
pinknoise is audible. By pressing PLAY the user confirms the
test, pressing PAUSE will indicate the sound was inaudible or
incorrect. Pressing NEXT will proceed to the next test; if the
user presses NEXT without pressing PLAY or PAUSE first, the
result of this test will be TRUE (sound ok). By pressing the
NEXT button there will be switched over to the external source,
this must become now visible on the TV screen (using the
SCART). The local display indicates:

Figure 14-13

The internally generated colour bar is still available on the
CVBS and Y/C outputs. And the pinknoise-signal is still
available on the cinch audio outputs. By pressing the PREV
button, the internal generated colour bar becomes visual again.
The test can be left by pressing the NEXT key for more than
one second.

14.2.3 SOUND 2 TEST

The second soundtest is performed by producing a sine sound
(nucleus AudioSineOn). The signal can be stopped by pressing
the STOP-key. The display will show the following message:

Figure 14-14

By pressing PLAY the user confirms the test, pressing PAUSE
will indicate that something went wrong. Pressing NEXT will
proceed to the next; if the user presses NEXT without pressing
PLAY or PAUSE first, the result of this test will be TRUE (sound
ok).

14.3 BASIC ENGINE

14.3.1 VERSION NUMBER

In the basic engine tests, the version number of the Basic
Engine will be shown first, as the following example:

Figure 14-15

By pressing the NEXT key, the Basic Engine tests are started.

14.3.2 TRAY TEST

First, the tray is tested. The purpose of this test is also to give
the user the opportunity to put a disc in the tray of the DVD
player. Some tests on the Basic Engine require that a disc(e.g.
DVD MPTD test disc) is present in the player. At the end of the
Basic Engine tests this tray test will be repeated solely to
enable the user to remove the disc in the tray. The local display
will look as follows:

Figure 14-16

By pressing PLAY or PAUSE the user can toggle the position
of the tray. Note that this test will not contribute to the test result
of the Basic Engine. Pressing NEXT will proceed to the next
test, after the tray has been closed (by the software) if it was
open.

14.3.3 SLEDGE TEST(visual tes t)

The second Basic Engine test tests the sledge; the user can
move the sledge as many times as desired by using PLAY
(nucleus BeSledgeOut) and PAUSE (nucleus BeSledgeIn).
Pressing NEXT on the local keyboard proceeds to the next test.
Note that this test will not contribute to the test result of the
Basic Engine. The local display will look as follows during the
sledge test:

Figure 14-17

14.3.4 DISC MOTOR TEST(visual test)

The third Basic Engine test tests the disc motor (nucleus
BeDiscMotorOn); the local display looks as follows:

58

Figure 14-18

By pressing PLAY the user confirms that the disc motor is
running; pressing PAUSE indicates the disc motor does not
work. Pressing NEXT proceeds to the next test, after a reset of
the disc motor (nucleus BeDiscMotorOff). If the user presses
NEXT before pressing PLAY or PAUSE, the result of this test
will be TRUE (disc motor is running).

14.3.5 FOCUS TEST(visual test)

The fourth Basic Engine test tests the focussing; first focussing
is turned on by calling nucleus BeFocusOn. The display will
look as follows:

Figure 14-19

By pressing PLAY the user confirms that the focussing was
succesful; pressing PAUSE indicates a focussing failure.
Pressing NEXT proceeds to the next test after a reset of the
focussing (nucleus BeFocusOff); if NEXT is pressed before
PLAY or PAUSE, the result of this test will be TRUE (focus
successful).

14.3.6 RADIAL TEST(visual & listening test)

T he fifth Basic Engine test tests the radial functionality (nucleus
BeRadialOn); the local display looks as follows:

Figure 14-20

By pressing PLAY the user confirms that the radial function
worked; pressing PAUSE indicates the function does not work.
Pressing NEXT proceeds to the next test, after a reset of the
radial (nucleus BeRadialOff). If the user presses NEXT before
pressing PLAY or PAUSE, the result of this test will be TRUE
(radial successful).

14.3.7 JUMP TEST(listening test)

The sixth and last Basic Engine test tests the jumping by calling
nuclei BeGroovesIn, BeGroovesMid and BeGroovesOut.
During this test, the local display looks as follows:

Figure 14-21

The user can switch between the three different types of
groove settings by pressing PLAY (forward to next nucleus in
the list In-Mid-Out) or PAUSE (backward in the list In-Mid-Out).
This is done in a cyclic manner; note that this test will not
contribute to the test result of the Basic Engine. Pressing NEXT
proceeds to the next test, after the disc motor has been shut off
with a call to nucleus BeDiscMotorOff.

14.3.8 TRAY TEST

As a last action for the Basic Engine tests, the tray test is
repeated. The local display will look as follows:

Figure 14-22

This test is meant to give the user the opportunity to remove the
disc in the tray. The tray position can be toggled using the
PLAY and PAUSE key. The tray will be closed (by the software,
if it is open) before proceeding to the next test when the user
presses the NEXT key.

59

14.3.9 ERROR LOG

Reading the error log and error bits information can be useful
to determine any errors that occurred recently during normal
operation of the DVD player. Reading the error log is done by
nucleus LogReadErr. The display during the errorlog readout
looks as follows :

Figure 14-23

By pressing PLAY or PAUSE the user can move forward or
backward (respectively) through the logged error codes. The
highlighted number indicates which errorcode is currently on
display (in the example above, errorcode number 4 is
displayed). If "0000" is displayed at all positions, the error log is
empty. Display of the logged errors is done in a cyclic manner.
The errorcode with the lowest highlighted number is the most

recent. By pressing NEXT on the local keyboard, the user can
proceed to the next test.

14.3.10 ERROR BITS

Reading the error bits is done by nucleus LogReadBits. The
display during the errorbits readout looks as follows:

Figure 14-24

Only the set errorbits will be shown by their (decimal) number.
Refer to the appropriate documen tation for the explanation of
each bit number. If the display only shows "EB-0", no error bits
were set. By pressing NEXT the user can continue to the next
test.
See table below:

Error log / bits table Read ERROR LOG in player

script

Read ERROR BITS in

player script
Basic engine errors Value: Value:
Command to the Basic Engine not allowed in this state or unknown

command

150101 8

Parameter(s) from the command to the Basic Engine is not valid 150102 7
Sledge could not be moved to the inner home position 150103 6
Focus failure 150104 5
Turntable motor speed could not be reached within timeout 150105 4
Radial servo could not get on track on the disc 150106 3
PLL could not lock in the accessing or tracking state 150107 2
Subcode or sector information could not be read 150108 1
requested subcode could not be found 150109 16
Tray could not be closed or opened completely 15010A 15
TOC could not be read within timeout 15010B 14
The requested seek on the disc could not be executed 15010C 13
A requested lead-in is not on the disc 15010D 12
A non existing burst cutting area is requested 15010E 11
S2b communication error 1501F0 10
S2b communication error 1501F1 9
S2b communication error 1501F3 24
S2b communication error 1501F4 23
S2b communication error 1501F5 22
Digital PWB errors
Communication error with the Sti 5505 90000 32
Communication error with the Sti 5505 90001 31
Disply processor errors
Communication error with the display processor 190000 40

60

14.4 LOOP TEST

At the start of the loop test, the display will show the result of
the interactive player test:

Figure 14-25

The left side of the display contains a 3-digit code, which can
have a value between 000 and 111. These values are to be
interpreted as follows:

Figure 14-26

The loop test will perform the same nuclei as the dealer test,
but it will loop through the list of nuclei indefinitely. The display
of the DVD player will display not only the three digits indicating
correct/faulty modules and the last found error code (as
mentioned, faults are detected as far as they can be within the
scope of the diagnostic software), but also a loop counter
indicating how many times the loop has been gone through.
Example:

Figure 14-27

The number after the hyphen indicates the number of times the
loop test has been performed; the 4 digits at the right side of the
display show the last error that was found when running the
loop test: the leftmost two digits of this code indicate which
nucleus resulted in a fault; the rightmost two digits refer to the
faultcode within that nucleus. For further explanation of this
error code, see list of error codes below.

Figure 14-28

Displayed
Value

Indication for each module
Basic Engine Mono

PCB

Display

PCB
000 ok ok ok
001 ok ok faulty
010 ok faulty ok
011 ok faulty faulty
100 faulty ok ok
101 faulty ok faulty
110 faulty faulty ok
111 faulty faulty faulty

FAULTY
MODULE(S)

LOOP
COUNTER NUCLEUS ERROR

ERROR CODES LOOP TEST

ERROR CODE NUCLEUS NUMBER ERROR DESCRIPTION

0601

6 Calculated checksum of FLASH is not correct

0901

9 The DVD DRAM is faulty

1104

11 I2C bus busy before start

1102

NVRAM access time-out

1103

No NVRAM Acknowledge

1104

NVRAM reply time-out

1201

12 I2C bus busy

1202

I2C bus not working

1203

Slave controller not responding

1204

Slave response is not correct

1301

13 Parity error from basic engine to serial

1302

Parity error from serial to basic engine

1303

No communication between serial and basic engine

1304

Communication time-out error

1601

16 The SDRAM is faulty

61

14.5 Servicing DVD module and MONO board

The DVD module(Basic Engine and the mono board) has to be
exchanged completely in case of failure. A new module for
DV4100 can be ordered with codenumber 3104 129

51980.

14.5.1 Reprogramming of new mono boards.

Figure 14-29

14.5.2 Reset of Virgin Mode

After the player has been powered up for test by the dealer, it
would have gone through the Virgin Mode. It is possible to reset
the settings made during that mode before the delivery of
player to the customer. This can be done as shown in the
following diagram:

Figure 14-30

Figure 14-31

Caution

This information is confidential and may not be distributed. Only a qualified service person should

reprogram the mono board

.

After replacement of the mono board, all the customer settings and also the region code will be lost.
Reprogramming of the mono board will put the player back in the state in which it has left the factory,
i.e. with the default settings and the allowed region code.

Reprogramming will be done by way of the remote control.
Put the player in stop mode, no disc loaded.

Reprogramming is limited to 25 times
When the counter reaches 25, reprogramming is not possible anymore

Press the following keys on the remote control:
<

PLAY

> followed by numerical keys

<2> <7> <4>

The display shows: “

- - - - - - - - - - -

”

Press now successively the following keys :
for DV4100/A1B :

<0><1><5> <0><0><0><0><0><0><0><0><0> PAL / NTSC

for DV4100/N1B :

<0><1><2> <0><0><0><0><0><0><0><0><0> PAL / NTSC

for DV4100/S1G :

<0><1><3> <0><0><0><0><0><0><0><0><0> PAL / NTSC

for DV4100/U1B :

<0><1><0> <0><0><0><0><0><0><0><0><0> PAL / NTSC

Press <

PLAY

> again.
The TV screen will become BLUE during a short time to confirm that the mono board has been
reprogrammed, then the set goes to standby mode.

DISCONNECT FROM MAINS

PRESS 2 KEYS

SIMULTANEOUSLY

<PREVIOUS> + <OPEN/CLOSE>

CONNECT TO MAINS

VIRGIN MODE IS RESET

TV SCREEN SHOWS

VIRGIN MODE MENU

DISCONNECT FROM MAINS

IF TRADE MODE OFF

PRESS 2 KEYS

SIMULTANEOUSLY

<PLAY> + <OPEN/CLOSE>

CONNECT TO MAINS

DISCONNECT FROM MAINS

IF TRADE MODE ON

PLAYER IS IN NORMAL MODE

WHEN PRESSING FRONT
KEYS, THE PLAYER WILL

RESPOND

PRESS 2 KEYS

SIMULTANEOUSLY

<PLAY> + <OPEN/CLOSE>

CONNECT TO MAINS

PLAYER IS IN TRADE MODE

WHEN PRESSING FRONT

KEYS, THE PLAYER

DOESN'T RESPOND

TRADE MODE

When the player is in Trade Mode, the player cannot be
controlled by means of the front key buttons, but only by means
of the remote control.

For /U1B with old DVD module "VAE3000". (Production
WEEK36 or earlier)

For other DV4100

Please refer the DVD Module ADS-1 Service Manual (3122 785

10840) attached with this Service Manual.
For servicing DVD Module ADS-1, the service application
softwear "ComPair" is necessary.

62

15. TEST INSTRUCTIONS DISPLAY BOARD

15.1 Display board

15.1.1 Introduction

These test instructions are written for all versions of the display
PCB 3104 123 42230.
The contents of the PCB can be split up into next blocks:

Figure 15-1

15.1.2 Functionality description:

The essential component of the display PCB is the P (slave).
This slave works on an 8MHz resonator and has a reset circuit
that is triggered by the +5Vstby. After the reset pulse, the
standby control line will release the reset of the host P. This
host P will then initialise the slave. In addition, when going to
stand-by, the slave will put the host P in reset. When the slave
receives the right IR or key code to leave the standby mode, the
reset of the host P will be released.
Other slave functions are:

Square signal generator to generate the filament voltage,
which is required for an AC FTD.
Generates the grid and segment scanning for the FTD.
Generates a scanning grid for the keys (separa ted from
display scanning).
Has inputs for RC (RC5 and RC6) and P50 (P50 controller
is built in).

15.1.3 General

Oscilloscope measurements have been carried out using a

Philips PM3392A.
Impedance of measuring-equipment should be > 1M .
To do correct measurements we recommend to use supply

3122 427 21370, which is used in all "second generation B"

DVD-players. Make sure that the main 3.3V has a 0.7A

load.

15.1.4 Reset

Check next reset timing with an oscilloscope at pin 10 of the
microprocessor.

Figure 15-2

Timing: 400msec < T1 > 700msec.
CH1: +5Vstby voltage at power on.
CH2: Voltage at pin 10.

15.1.5 Display steerign

Check next timing and level for all grid-lines (G1 r G14).

Figure 15-3

1. Check level A: +4V5 +/-10% for grid lines 1 => 11

2. Check level A: +4V0 +/-10% for grid lines 12 => 14

3. Check level B: -33V +/-10%

4. Check timing and levels of segment-lines P1 => P10:

Figure 15-4

Processor

I2C

Display

Key-matrix

RC-Eye

V filament

V filament
Buffer

P50

I/O

Supply:
+5Vstby

+12V

-40V

PM3392A

ch1

ch2

CH1 2. 00 V=
CH2 2 V= BW L MTB 100 ms- 1.04d v ch2+

1

2

T

T1

PM3392A

ch1

ch1: low =-34.2 V
ch1: high= 3.98 V

STOP
CH1 10.0 V= MTB 200us 2324us ch1+

1

T

A

B

PM3392A

ch1

CH1 10. 0 V= BWL MTB 500u s- 1.04 dv ch1 +

1

T

A

B

63

Level A:+4V5 +/-10%
Level B:-33V +/-10%
The data on these segment lines depend on the characters that
are displayed.
The characters can be set by sending I2C commands to the
display.
See the Slave URS how to send a display command.

15.1.6 Key-matrix

Connect a extra 10k pull-up to pin 36 en 37 of the P and
check next matrix scanning at these pins.

Figure 15-5

Level A: 5.0V +/-7%
Level B: 0V +/-200mV
Check matrix scanning from pin 26 until 33 of the P.
The results should be the same as the diagram above.

15.1.7 I.R. receiver

Check at pin 23 of the P if this line switches from low (< 0.3V)
to high (> 4.5V), while pressing a key on a Philips RC5 or RC6
remote control.

15.1.8 P50 interface

P50 is a bi-directional serial interface, which is used for
communication between video equipment. For European sets,
this communication goes via pin 10 of the scart-bus. In other
regions, it can be a cinch bus at the back of the set.

1. Keep the P in reset by short-circuiting emitter and
collector of transistor 7108, via resistor 3100 and 3104
transistor 7101 is switched on.

2. Check the voltage at the P50 output connector 1118-5: <
200mV.

When the reset is released the P output-pin becomes low and
transistor 7101 is switched off.

1. Check the voltage at the P50 output connector 1118-5: 4V9
+/-5%.

2. Check also the P P50 input ( P pin 20): 5V +/-5%.

3. Connect the P50 line (connector 1118-5) to ground.

4. Check again the P P50 input ( P pin 20): <0V3.

PM3392A

ch1

ch1: low =-46.9mV
ch1: high= 5.09 V

STOP
CH1 2.00 V= MTB10.0ms ch1-

1

B

A

64

16. CURRENT MODE POWER SUPPLY 20PS203

16.1 Blockdiagram

Figure 16-1

16.1.1 Function description of the current mode power supply

MOSFET 7125 is used as a power switch controlled by the
controller IC 7110. When the switch is closed, energy is
transferred from the mains into the transformer. This energy is
then supplied to the load when the switch is opened. By control
of the switched-on time, the energy transferred in each cycle is
regulated so that the output voltages are independent of load
or input voltage variations. The controlling device MC44603P is
an integrated pulse width modulator. A clock signal initiates
power pulses at a fixed frequency. The termination of each
output pulse occurs when an analogue of the inductor current
reaches a threshold established by the error signal. In this way
the error signal actually controls the peak inductor current on
cycle-by-cycle basis.

16.2 General description of M C 44603

The MC44603 is an enhanced high performance controller that
is specifically designed for Off-line and dc-to dc converter
applications. This device has the unique ability of automatically
changing operating modes if the converter output is
overloaded., unloaded, or shorted. The MC44603 has several
distinguishing features when compared to conventional SMPS
controllers. These features consist of a foldback facility for
overload protection, a standby mode when the converter output
is slightly loaded, a demagnetisation detection for reduced
switching stresses on transistor and diodes, and a high current
totem pole output ideally suited for driving a power MOSFET. It

can also be used for driving a bipolar transistor in low power
converters. It is optimised to operate in discontinuous mode but
can also operate in continuous mode. Its advanced design
allows use in current mode or voltage mode control
applications.

16.3 Pin connections

Figure 16-2

+6V Stand By

GNDs

Feedback

Voltage

Rsense

7201

7200

6230

6260

6250

6240

5131

7125

2121

REGULATION

EMI

FILTER

MAINS

+12V

-8V Stand By

RQ

S

OSC.

+

+

-

-

2.5V

Error
Amplifier

latch

Lightning
Protection

Rectifier

1

5

7

9

Soft-Start

Control

Overvoltage

Mgmt

Mgmt

Demagnet.

Output
Sense

Current
Sense
Input

Buffer

Supply Init

Out

Gnd

7110

6129

6132

Vc

+5V

2240

2260

Stand By

+5V Stand By

-40V

+3V3

GND

7233

2250

7236

2230

6210

2210

6220

Rref
R Frequency Standb
Voltage feedback I

n

Error Amp Output
R Power Standby

Sof-Start/Dmax/
Voltage Mode

Sync Input

Overvoltage Protection(OVP)

Current Sense Input

Demag. Detection

Foldback Input

107

CT

8 9

6

5

11

12

Output

Gnd

VC

VCC

3

4

2

14

13

15

1 16

65

16.4 Blockdiagram of MC44603

Figure 16-3

16.5 Pin function description

Figure 16-4

VS8 OUT

CONTROL

Dmax &
SOFT-START

Vref

Voc

GND

OUT

VC

PROTECT

VOLTAGE

OVER

MANAGEMENT

OVER
VOLTAGE

DEMAGNETISATION

MANAGEMENT

OSCILLATOR

STANDBY

(REDUCED FREQUENCY)

ERROR

AMP

CURRENT
SENSE

DEMAGNETISATION
DETECT

SYNC INPUT

CT

RF STANDBY

Iref

REFERENCE

BLOCK

SUPPLY

INITIALISATION BLOCK

Vref Iref

Vref

enable

UVL01

VOSC

VOSC PROT

=1

LATCH

THERMAL
SHUTDOWN

BUFFER

VOLTAGE
FEEDBACK

2.5V

RP STANDBY

Iref

UVL01

Vref

FOLDBACK

FOLDBACK
INPUT

CURRENT SENSE
INPUT

SOFT-START
& DMAX

1

2

3

4

6

57 11

8

9

10

15

12

14

13

E/A OUT

16

C

1Set

1Reset

Vstby

MC44603P

Pin function description

Pin Name Description

1 VCC This pin is the positive supply of the IC. The operating voltage range after s t art-up is 9.0 to 14.5 V.
2 VC The output high state (V OH) i s set by the voltage applied to this pin.
3 Output Peak c urrents up to 750 mA can be sourced or sunk, suitable for driving either MOSFET or Bi pol ar t ransistors.
4 Gnd The groundpin is a single return, typically connect ed back to the power source.
5 Foldback Input The foldback function provides overload protection.
6 Overvoltage

Protection

When the overvoltage protection pin recei ves a voltage greater than 2.5V, the device is disabled and requires a
complete restart sequence.

7 Current Sense

Input

A voltage proportional to the current flowing into the power switch i s connected to this input.

8 Demagnetis at i on

Detection

A voltage delivered by an auxiliary transformer winding provides to the demagnetisation pin an indication of t he
magnetisation state of the fl yback transformer. A zero voltage detection corresponds to complete core
saturation.

9 Synchronisation

Input

The synchronisation input pin can be activated with ei t her a negative pulse going from a level between 0.7V and

3.7V to Gnd or a positive pulse going from a level between 0.7V and 3.7V up to a level higher than 3.7V. The
oscillator runs free when Pin 9 is connected to Gnd.

10 C

T

The normal mode oscillator frequency is programmed by the capacitor CT choice together with the Rref
resistance value. CT, connected between Pin 10 and Gnd, generat es the oscillator sawtooth.

11 Soft-

Start/Dmax/Volta
ge-Mode

A capacitor, resistor or a voltage source connected to this pin limits the switching duty-cycle. Thi s pi n can be
used as a voltage mode control input. By c onnecting Pin 11 to Ground, the MC44603 can be shut down.

12 RP Standby A voltage level applied to the RP Standby pin determ ines the output power level at which the oscillator will turn

into the reduced frequency mode of operation(i.e. standby mode). An internal hysteresis comparator allows to

return in the normal mode at a higher output power level.
13 E/A Out The error amplifier output is made available for l oop compensation.
14 Voltage

Feedback

This is the inverting input of the Error Amplifier. It can be connected to the switching power supply output

through an optical (or other) feedback loop.
15 RF Standby The reduced frequenc y or standby frequency programming is made by the RF Standby resistance choic e.
16 Rref

Rref sets the internal reference current. The i nternal reference current ranges from 100 A to 500 A. This

requires that 5.0k Rref 25k .

66

16.6 Operating description

The input voltage Vcc(pin 1) is monitored by a comparator with
hysteresis, enabling the circuit at 14.5V and disabling the
circuit below 7.5V. The error amplifier compares a voltage
Vfb(pin 14) related to the output voltage of the power supply,
with an internal 2.5V reference. The current sense comparator
compares the output of the error amplifier with the switch
current Isense(pin 7) of the power supply. The output of the
current sense comparator resets a latch, which is set every
cycle by the oscillator. The output stage is a totem pole,
capable of driving a MOSFET directly.

16.6.1 Start-up sequence

t1: Charging the capacitor at Vcc

C2129 will be charged via R3123 and R3134, C2133 and
C2111 via R3129. The output is switched off during t1.

t2: Charging of output capa citors

When the input voltage of the IC exceeds 14.5V, the circuit is
enabled and starts to produce output pulses. The current
consumption of the circuit increases to about 17mA, depending
on the external loads of the IC. At first, the capacitor at the Vcc
pin will discharge because the primary auxiliary voltage,
coming from winding 7-9 is below the Vcc voltage. At some
moment during t2, the primary auxiliary voltage reaches the
same level as Vcc. The Vcc voltage is now determinated by this
primary auxiliary voltage.

t3: regulation

The output voltage of the power supply is in regulation

t4: overload

When the output is shortened, the supply voltage of the circuit
will decrease and after some time drop below the lower
threshold voltage. At that moment, the output will be disabled
and the process of charging the Vcc capacitor starts again. If
the output is still shorted at the next t2 phase, the complete
start-and stop sequence will repeat. The power supply comes
in a hiccup mode

Figure 16-5 Start-up sequence

16.7 Regulation

Figure 16-6 shows the most relevant signals during the regulation
phase of the power supply.
The oscillator voltage ramps up and down between V1 and V2.
The voltage at the current sense terminal is compared every
cycle with the output of the error amplifier Vcomp. The output
is switched off when the current sense level exceeds the level
at the output of the error amplifier.

1. TimeON phase : A drain current will flow from the positive
supply at pin 1 of the transformer through the transformer's
primary winding, the MOSFET and Rsense to ground. As
the positive voltage at pin 1 of the transformer is constant,
the current will increase linearly and create a ramp
dependent on the mains voltage and the inductance of the
primary winding. A certain amount of energy is stored in the
transformer in the form of a magnetic field. The polarity of
the voltages at the secundary windings is such that the
diodes are non-conducting.

2. TimeDIODE phase : When the MOSFET is switched off,
energy is no longer supplied to the tranformer. The
inductance of the tranformer now tries to maintain the
current which has been flowing through it at a constant
level. The polarity of the voltage from the transformer
therefore becomes reversed. This results in a current flow
through the tranformer's secondary winding via the diodes,
electrolytic capacitors and the load. This current is also
ramp shaped but decreasing.

3. TimeDEAD phase : when the stored energy has been
supplied to the load, the current in the secondary windings
stops flowing. At this point the drain voltage of the
MOSFET will drop to the voltage of C2121 with a ringing
caused by the Drain-Source capacitance with the primary
inductance.

The oscillator will start a next cyclus which consists of the
described three phases. The time of the different phases
depends on the mains voltage and the load.
TimeDEAD is maximum at an input of 400VDC and minimum
load, it will be zero at an input of 100VDC and overload.

Figure 16-6 Regulation

1mA

Vo

0

OUTPUT

t4

short

Icc

0V

17mA

14.5V

7.5V

t1

Vcc

p.a.v.

t2 t3

10V

Vosc

Idiodes

Vgate

Vdrain

Idrain

Vsense

Vcomp

0

V2

V1

Ton Tdiode Tdead

67

16.8 Oscillograms

Figure 16-7

PM3394B

ch2

ch3

ch1

CH 1 2
CH2

CH3 2 V~ A LT MT B5.00us- 0.90dv ch1-

1

2

3

T

ch1 : Drain voltage
ch2 : Drain current
ch3 : Gate voltage

PM3394B

ch3

ch1

CH1 1
CH3 50mV~ ALT MTB5.00us- 0.90dv ch1-

1

3

T

ch1 : Drain voltage
ch2 : Oscillator voltage

PM3394B

ch3

ch1

CH1 1
CH3 20mV~ ALT MTB5.00us- 0.90dv ch1-

1

3

T

ch1 : Drain voltage
ch3 : Sense voltage

68

17. CIRCUIT DESCRIPTIONS AND ABBREVIATIONS

17.1 Input circuit

The input circuit consists of a lightning protection circuit and an
EMI filter.
The lightning protection comprises R3120, gasarrestor 1125
and R3124. The EMI filter is formed by C2120, L5120, C2125
and C2126. It prevents inflow of noises into the mains.

17.2 Primary rectifier/smoothing circuit

The AC input is rectified by rectifier bridge 6120 and smoothed
into C2121. The voltage over C2121 is approximately 300V. It
can vary from 100V to 390V.

17.3 Start circuit and Vcc supply

This circuit is formed by R3123, R3134, C2129, D6129, R3129,
R3111, C2133 and C2111.
When the power plug is connected to the mains voltage, the
stabilised voltage over D6129(24V) will charge C2133 via
R3129. When the voltage reaches 14.5V across C2111, the
control circuit of IC7110 is turned on and the regulation starts.
During regulation, Vcc of IC7110 will be supplied by the
rectified voltage from winding 7-9 via R3135, D6132 and
C2133.

17.4 Control circuit

The control circuit exists of IC7110, C2102, 2104, 2107, 2109,
2110, R3102, 3103, 3104, 3107, 3108, 3109 and 3110. The
frequency of the oscillator is defined by C 2102 and R3110.
Power switch circuit
This circuit comprises MOSFET 7125, Rsense 3126, 3127 and
3128, R3125 , C2127, L5125, R3112 and R3113. R3125 is a
pull-down resistor to remove static charges from the gate of the
MOSFET.

17.5 Regulation circuit

The regulation circuit comprises opto-coupler 7200 which
isolates the error signal from the control IC on the primary side
and a reference component 7201. The TL431(7201) can be
represented by two components:

a very stable and accurate reference diode
a high gain amplifier

Figure 17-1

TL431 will conduct from cathode to anode when the reference
is higher than the internal reference voltage of about 2.5V. If the
reference voltage is lower, the cathode current is almo st zero.

The cathode current flows through the LED of the opto-coupler.
The collector current of the opto-coupler flows through R3106,
producing an error voltage, connected to voltage feedback pin
14 of IC7110.

17.6 Demagnetisation

The auxiliary winding (7-9) voltage is used to detect magnetic
saturation of the transformer core and connected via R3101 to
pin 8 of IC7110. During the demagnetisation phase, the output
will be disabled.

17.7 Overvoltage protection circuit

This circuit consist of D6114, C2114, R3115 and R3116.
When the regulation circuit is interrupted due to an error in the
control loop, the regulated output voltage will increase
(overvoltage). This overvoltage is sensed on the primary
winding 7-9.
When an overvoltage longer than 2.0 (s is detected, the output
is disabled until VCC is removed and then re-applied. The
power supply will come in a hiccup mode as long as the error
in the control loop is present.

17.8 Secondary rectifier/smoothing circuit

There are 5 rectifier/smoothing circuits on the secondary side.
Each voltage depends on the number of windings of the
transformer.
The +5Vstby power supply is derived from the +12Vstby by
voltage regulator 7233, C2233 and L5233.
The -5V voltage is regulated by voltage regulator 7259 and will
be switched off via D6256, T7256 and T7255 during standby
(control signal STAND BY is high). When jumper 4250 is
mounted instead of this circuit, a supply voltage -8Vstby will be
present at pin 9 of connector 0205. -5V is used in DVD730 MK
II, DVD 930 MK II and DVD710. -8Vstby is used in DVD750 and
DVD950.
The +5V power supply is derived from +6Vstby by the loader­up circuit formed by MOSFET 7236, reference component
7237, R3236, R3237 and C2239. This voltage will be switched
off during STAND BY via T7235.
The 3V3 power supply is regulated by the control loop (7201,
7200, 7110) of the switched mode PSU.

A

2.5V

R

K

69

17.9 List of abbreviations

B Buffered Video input Blue f rom DVD

monoboard
BC_AUX Blue or Chroma input from AUX-scart
BC_TV Blue or Chroma output to TV-scart
C_ENC Buffered Chroma input from DVD

monoboard
CVBS Buffered Compos ite v ideo input from

DVD monoboard
DC_OFF Control signal to switch off 8Vstby

and +12Vstby during standby
DIG_OUT Digital out
FBIN_AUX Fast blanking input from AUX-scart
FBOUT_TV Fast blanking output to TV-scart
G Buffered Video input Green from DVD

monoboard
GIN_AUX Video input Green from AUX-scart
GOUT_TV Video output Green to TV-scart
HP_L Audio output left to headphone and

audio scart switch TEA6420
HP_R Audio output right to headphone and

audio scart switch TEA6420
KILL Kill control signal for audio outputs and

for soft mute of DAC
LIN_AUX Audio input left from AUX-scart
LIN_TV Audio input left from TV-scart
LOUT_AUX Audio output left to AUX-scart
LOUT_TV Audio output left to TV-scart
LRCLK Left/Right clock
PCM_CLK Audio system clock for DAC
PCM_OUT0 Audio serial output data
R Buffered Video input Red from DVD

monoboard
RCIN_TV Red or Chroma input from TV-scart
RCOUT_TV Red or Chroma output to TV-scart
RIN_AUX Audio input right from AUX-scart
RIN_TV Audio input right from TV-scart
ROUT_AUX Audio output right to AUX-scart
ROUT_TV Audio output right to TV-scart
SCL I2C bus clock
SCLK Audio serial bit clock
SDA I2C bus data
SELECT Control signal for video scart switches;

high = TV ,low = AUX
SELECT_HIGH Control signal for switching fast

blanking and slow blanking signals;

high = TV,.low = AUX
SLB_AUX Slow blanking control signal from

AUX-scart
SLB_TV Slow blanking control signal to TV-

scart
STANDBY Control signal from STI5505 used to

swith off 8Vstby and +12Vstby during

standby.
STEREO_L Audio cinch output left
STEREO_R Audio cinch output righ t
Y_ENC Buffered Luma input from DVD

monoboard
YCVBSIN_AUX Luma or CVBS input from AUX-scart
YCVBSIN_TV Luma or CVBS input from TV-scart
YCVBSOUT_AUX Luma or CVBS output to AUX-scart
YCVBSOUT_TV Luma or CVBS output to TV-scart
0/6/12 Scart switch control signal A/V board.

0V : loop through (AUX to TV), 6V :

play 16:9 format, 12V : play 4:3 format

ASSIGNMENT OF COMMON PARTS CODES.

RESISTORS

R 1) GD05 x x x 140, Carbon film fixed resistor, 5% 1/4W
R 2) GD05 x x x 160, Carbon film fixed resistor, 5% 1/6W

1 Resistance value

Examples

1 Resistance value

0.1 ..... 001 10 ......100 1k ......102 100k ...... 104

0.5 ..... 005 18 ......180 2.7k ......272 680k ...... 684

1 ..... 010 100 ......101 10k ......103 1M ...... 105

6.8 ..... 068 39 0 ......39 1 22 k ......22 3 4.7M ...... 475

Note : Please distinguish 1/4W from 1/6W by the shape of parts

used actually.

CAPACITORS

C : CERAMIC CAP.

3) DD1 x x x x 370, Ceramic capacitor
Disc type
Temp.coeff. P350~N1000, 50V

3 Capacity value

2 Tolerance

Examples

2 Tolerance (Capacity deviation)

0.25 pF ....... 0

0.5 pF ....... 1

5 % .......5

Tolerance of COMMON PARTS handled here are as follows :

0.5 pF - 5 pF ....... 0.25 pF

6 pF - 1 0 p F ..... 0.5 pF

12 pF - 560 pF ... 5 %

3 Capacity value

0.5 pF .... 0 0 5 3 p F ..... 03 0 100 pF.....101

1 pF .... 010 10 p F ..... 100 220 pF.....221

1.5 pF .... 0 1 5 47 p F ..... 470 560 pF.....561

C : CERAMIC CAP.

4) DK16 x x x 300, High dielectric constant ceramic
capacitor
Disc type
Temp.chara. 2B4, 50V

4 Capacity value

Examples

4 Capacity value

100 pF .....101 1000 pF .... 102 10000 pF .... 103

470 pF .....471 2200 pF .... 222

C : 5) ELECTROLY CAP.( ), 6)FILM CAP ( )

5) EA x x x x x x 10, Electrolytic capacitor

One-way lead type,Tolerance 20%

6 Working voltage

5 Capacity value

Examples

5 Capacity value

0.1 F .... 1 0 4 4 . 7 F .... 4 7 5 100 F .....107

0.33 F .... 3 34 1 0 F .... 106 330 F .....33 7

1 F .... 105 2 2 F .... 2 2 6 1100 F .....118

2200 F .... 2 2 8

6 Working voltage

6.3 V ...... 006 25 V ..... 025

10 V ...... 01 0 35 V ..... 0 3 5

16 V ...... 01 6 50 V ..... 0 5 0

6) DF15 x x x 350 Plastic film capacitor

DF15 x x x 310 One-way type, Mylar 5% 50V
DF16 x x x 310 Plastic film capacitor

One-way type, Mylar 10% 50V

7 Capacity value

Examples

7 Capacity value

0.001

F (1000 pF) ...... 1 0 2 0.1 F...... 1 0 4

0.0018

F........................ 1 8 2 0.56 F......564

0.01

F........................ 1 0 3 1 F ...... 10 5

0.015

F........................ 1 5 3

1) The above CODES(R ,R ,C ,C
and C ) are omitted on the schematic diagram in
some case.

2) On the occasion, be confirmed the common parts on the
parts list.

3) Refer to “Common Parts List” for the other common
parts(Rl05, DD4, DK4).

NOTE

NOTE ON SAFETY:

Symbol Fire or electrical shock hazard. Only original
parts should be used to replaced any part marked with
symbol Any other component substitution ( other than
original type), may increase risk of fire or electrical shock
hazard.

990521 A.O

NOTE ON SAFETY FOR FUSIBLE RESIST OR :

The suppliers and their type numbers of fusible resistors are as
follows ;
1 . KOA Corporation
Part No.(MJI) Type No.(KOA) Description
NH05 x x x 140 RF25S x x x x

J
J

J

J

5% (1/4W)
NH05 x x x 120 RF50S x x x x 5% (1/2W)
NH85 x x x 110 RF73B2A x x x x 5% (1/10W)
NH95 x x x 140 RF73B2E x x x x 5% (1/4W)

Resistance value Resistance value(0.1

- 10k )

2. Matsushita Electronic Components Co., Ltd
Part No.(MJI) Type No.(MEC) Description
NF05 x x x 140 ERD-2FCJ x x x ( 5% 1/4W)
RF05 x x x 140
NF02 x x x 140 ERD-2FCG x x x ( 2% 1/4W)
RF02 x x x 140

Resistance value

Examples

Resistance value

0.1 ..... 001 10 ..... 100 1k ..... 102 100k ..... 104

0.5 ..... 005 18 ..... 180 2.7k ..... 272 680k ..... 684

1 ..... 010 100 ..... 101 10k ..... 103 1M ..... 105

6.8 ..... 068 390 ..... 391 22k ..... 223 4.7M ..... 475

ABBREVIA

TION AND MARKS

ANT . : ANTENNA BATT. : BATTERY
CAP. : CAPACITOR CER. : CERAMIC
CONN. : CONNECTING DIG. : DIGITAL
HP : HEADPHONE MIC. : MICROPHONE

-PRO : MICROPROCESSOR REC. : RECORDING
RES. : RESISTOR SPK : SPEAKER
SW : SWITCH TRANSF. : TRANSFORMER
TRIM. : TRIMMING TRS. : TRANSISTOR
VAR. : VARIABLE X’ TAL : CRYSTAL

:
:

70

18. ELECTRICAL PARTS LIST

71

POS.

NO

VERS.

COLOR

PART NO.

(PCS)

DESCRIPTION

PART NO.

(MJI)

POS.

NO

VERS.

COLOR

PART NO.

(PCS)

DESCRIPTION

PART NO.

(MJI)

AV CIRCUIT BOARD
(/A1B,/S1G,/U1B)
CAPACITORS

2000 3198 028 41090 ELECT 10

F 20% 35V QT02841090
2001 4822 126 13838 CER. 100NF 50V QP12613838
2002 4822 126 13692 CER. 47pF 1% 63V QP12613692
2004 4822 126 13692 CER. 47pF 1% 63V QP12613692
2006 4822 124 41796 ELECT 22

F 20% 16V QP12441796
2007 4822 124 23432 ELECT 100

F 20% 10V QP12423432
2029 4822 124 81286 ELECT 47

F 20% 16V QP12481286
2030 4822 126 13482 CER. 470NF +80 -20% 16V QP12613482
2032 4822 126 13482 CER. 470NF +80 -20% 16V QP12613482
2033 4822 122 33575 CER. 220pF 5% 63V QP12233575
2036 4822 124 41643 ELECT 100

F 20% 16V QP12441643
2038 4822 124 41584 ELECT 100

F 20% 10V QP12441584
2039 4822 124 40181 ELECT 220

F 20% 10V QP12440181
2040 4822 124 41643 ELECT 100

F 20% 16V QP12441643
2041 4822 124 41643 ELECT 100

F 20% 16V QP12441643

2100 5322 122 32654 CER. 22N 63V QQ12232654
2101 5322 122 32531 CER. 100pF 5% 50V QQ12232531
2104 5322 122 31647 CER. 1NF 10% 63V QQ12231647
2106 5322 122 32531 CER. 100pF 5% 50V QQ12232531
2107 5322 122 32531 CER. 100pF 5% 50V QQ12232531
2108 5322 122 32654 CER. 22N 63V QQ12232654
2109 4822 126 13838 CER. 100NF 50V QP12613838
2110 4822 124 81286 ELECT 47

F 20% 16V QP12481286
2113 5322 122 31647 CER. 1NF 10% 63V QQ12231647
2115 5322 122 32531 CER. 100pF 5% 50V QQ12232531
2119 5322 122 31647 CER. 1NF 10% 63V QQ12231647
2121 5322 122 31647 CER. 1NF 10% 63V QQ12231647
2123 4822 122 33575 CER. 220pF 5% 63V QP12233575
2124 4822 126 14585 CER. 100NF 10% 50V QP12614585
2125 5322 122 32654 CER. 22N 3V QQ12232654
2126 5322 122 32654 CER. 22N 63V QQ12232654
2130 5322 122 32654 CER. 22N 63V QQ12232654
2131 5322 122 32654 CER. 22N 63V QQ12232654
2132 4822 124 22339 ELECT 100

E 16V QP12422339
2133 4822 124 22339 ELECT 100

E 16V QP12422339
2134 4822 124 11947 ELECT 10

F 20% 16V QP12411947

DIODES

6001

4822 130 11087 DIODE BZX284-C15 QP13011087
6006
6007 4822 130 83757 DIODE BAS216 QP13083757
6008 4822 130 83757 DIODE BAS216 QP13083757
6009 4822 130 83757 DIODE BAS216 QP13083757
6010 4822 130 11087 DIODE BZX284-C15 QP13011087

SEMICONDUCTORS

7103 4822 209 17423 IC ANA UAD1328T QP20917423
7110 4822 209 16978 IC ANA LF33CV QP20916978
7115 4822 209 30095 IC ANA LM833D QP20930095
7116 9322 141 80668 IC ANA AD8073
7117 4822 209 72684 IC ANA L7905CV QP20972684

7000 5322 130 60159 TRS. BC846B QQ13060159
7001 4822 130 42804 TRS. BC817-25 QP13042804
7002 4822 130 60373 TRS. BC856B QP13060373
7004 4822 130 42804 TRS. BC817-25 QP13042804
7005 4822 130 42804 TRS. BC817-25 QP13042804
7006 5322 130 60159 TRS. BC846B QQ13060159
7007 5322 130 60159 TRS. BC846B QQ13060159
7008 5322 130 60159 TRS. BC846B QQ13060159
7009 4822 130 60373 TRS. BC856B QP13060373
7010 5322 130 60159 TRS. BC846B QQ13060159
7011 5322 130 60159 TRS. BC846B QQ13060159
7012 4822 130 60373 TRS. BC856B QP13060373

7013 5322 130 60159 TRS. BC846B QQ13060159
7014 5322 130 60159 TRS. BC846B QQ13060159
7015 4822 130 60373 TRS. BC856B QP13060373
7016 5322 130 60159 TRS. BC846B QQ13060159
7017 5322 130 60159 TRS. BC846B QQ13060159
7018 5322 130 60159 TRS. BC846B QQ13060159
7019 5322 130 60159 TRS. BC846B QQ13060159
7104 4822 130 42804 TRS. BC817-25 QP13042804
7105 4822 130 42804 TRS. BC817-25 QP13042804
7108 4822 130 42804 TRS. BC817-25 QP13042804
7109 4822 130 42804 TRS. BC817-25 QP13042804
7112 4822 130 42804 TRS. BC817-25 QP13042804
7114 4822 130 42804 TRS. BC817-25 QP13042804

RESISTORS

3000 4822 051 20101 100R00 5% 0.1W QP05120101
3001 4822 117 12521 68R 1% 0.1W QP11712521
3005 4822 051 20472 4K70 5% 0.1W QP05120472
3006 4822 051 20472 4K70 5% 0.1W QP05120472
3007 4822 117 12955 2K7 1% 0.1W QP11712955
3008 4822 117 10833 10k 1% 0.1W QP11710833
3009 4822 051 20472 4K70 5% 0.1W QP05120472
3010 4822 051 20472 4K70 5% 0.1W QP05120472
3011 4822 051 20472 4K70 5% 0.1W QP05120472
3012 4822 117 11152 4R7 5% QP11711152
3014 4822 051 20101 100R00 5% 0.1W QP05120101
3015 4822 117 12955 2K7 1% 0.1W QP11712955
3016 4822 051 20101 100R00 5% 0.1W QP05120101
3017 4822 117 12955 2K7 1% 0.1W QP11712955
3036 4822 117 11449 2K2 5% 0.1W QP11711449
3038 4822 051 20223 22K00 5% 0.1W QP05120223
3039 4822 051 20223 22K00 5% 0.1W QP05120223

3040 4822 116 83933 15K 1% 0.1W QP11683933
3041 4822 051 20822 8K20 5% 0.1W QP05120822
3043 4822 117 11504 270R 1% 0.1W QP11711504
3044 4822 117 10833 10k 1% 0.1W QP11710833
3045 4822 051 20101 100R00 5% 0.1W QP05120101
3046 4822 051 20101 100R00 5% 0.1W QP05120101
3047 4822 117 11507 6K8 1% 0.1W QP11711507
3048 4822 117 11454 820R 1% 0.1W QP11711454
3049 4822 117 11927 75R 1% 0.1W QP11711927
3050 4822 051 20471 470R00 5% 0.1W QP05120471
3051 4822 051 20472 4K70 5% 0.1W QP05120472
3052 4822 117 10361 680R 1% 0.1W QP11710361
3056 4822 117 11504 270R 1% 0.1W QP11711504
3057 4822 117 11152 4R7 5% QP11711152
3058 4822 051 20101 100R00 5% 0.1W QP05120101
3059 4822 051 20101 100R00 5% 0.1W QP05120101
3060 4822 117 11507 6K8 1% 0.1W QP11711507
3061 4822 117 11454 820R 1% 0.1W QP11711454
3062 4822 117 11927 75R 1% 0.1W QP11711927
3063 4822 117 11449 2K2 5% 0.1W QP11711449
3064 4822 051 20472 4K70 5% 0.1W QP05120472
3065 4822 117 10361 680R 1% 0.1W QP11710361
3068 4822 117 11504 270R 1% 0.1W QP11711504
3069 4822 051 20101 100R00 5% 0.1W QP05120101

3070 4822 117 11507 6K8 1% 0.1W QP11711507
3071 4822 117 11454 820R 1% 0.1W QP11711454
3072 4822 117 11927 75R 1% 0.1W QP11711927
3073 4822 117 11449 2K2 5% 0.1W QP11711449
3074 4822 051 20472 4K70 5% 0.1W QP05120472
3075 4822 117 10361 680R 1% 0.1W QP11710361
3077 4822 117 11927 75R 1% 0.1W QP11711927
3078 4822 117 11449 2K2 5% 0.1W QP11711449
3100 4822 051 20101 100R00 5% 0.1W QP05120101
3101 4822 051 20472 4K70 5% 0.1W QP05120472
3102 4822 117 10833 10k 1% 0.1W QP11710833

72

POS.

NO

VERS.

COLOR

PART NO.

(PCS)

DESCRIPTION

PART NO.

(MJI)

POS.

NO

VERS.

COLOR

PART NO.

(PCS)

DESCRIPTION

PART NO.

(MJI)

3103 4822 117 10833 10k 1% 0.1W QP11710833
3105 4822 117 10833 10k 1% 0.1W QP11710833
3106 4822 117 10833 10k 1% 0.1W QP11710833
3107 4822 051 20101 100R00 5% 0.1W QP05120101
3108 4822 117 11152 4R7 5% QP11711152
3109 4822 117 11152 4R7 5% QP11711152
3110 4822 117 10833 10k 1% 0.1W QP11710833
3112 4822 117 12955 2K7 1% 0.1W QP11712955
3113 4822 117 12955 2K7 1% 0.1W QP11712955
3114

4822 117 10833 10k 1% 0.1W QP11710833
3117
3118 4822 051 20101 100R00 5% 0.1W QP05120101
3119 4822 051 20101 100R00 5% 0.1W QP05120101
3120 4822 117 10833 10k 1% 0.1W QP11710833
3121 4822 117 10833 10k 1% 0.1W QP11710833
3122 4822 117 12955 2K7 1% 0.1W QP11712955
3123 4822 117 12955 2K7 1% 0.1W QP11712955
3124 4822 117 10833 10k 1% 0.1W QP11710833
3126 4822 051 20101 100R00 5% 0.1W QP05120101
3127 4822 117 10833 10k 1% 0.1W QP11710833
3129 4822 117 12955 2K7 1% 0.1W QP11712955
3130 4822 051 20101 100R00 5% 0.1W QP05120101
3131 4822 117 10833 10k 1% 0.1W QP11710833
3132 4822 117 12955 2K7 1% 0.1W QP11712955
3135 5322 117 12487 1k 1% 0.125W RC12G QQ11712487
3136 5322 117 12487 1k 1% 0.125W RC12G QQ11712487
3137 4822 117 12635 10R 1% 0.125W QP11712635
3138 4822 117 11139 1k5 1% 0.1W QP11711139
3139 4822 117 11931 750R 1% 0.1W QP11711931

3140 2120 108 92619 SM ERJ6EN 2K2PM1
3141 5322 117 12487 1k 1% 0.125W RC12G QQ11712487
3142 5322 117 12487 1k 1% 0.125W RC12G QQ11712487
3143 5322 117 12487 1k 1% 0.125W RC12G QQ11712487
3144 4822 117 11953 560R 1% 0.1W QP11711953
3145 2120 108 92625 SM ERJ6EN 5K6PM1
3147 2120 108 92616 SM ERJ6EN 1k2 PM1
3148 5322 117 12487 1k 1% 0.125W RC12G QQ11712487
3150 4822 117 11927 75R 1% 0.1W QP11711927
3153 4822 051 20101 100R00 5% 0.1W QP05120101
3154 4822 117 11927 75R 1% 0.1W QP11711927
3157 4822 117 11927 75R 1% 0.1W QP11711927
3158 4822 117 11449 2K2 5% 0.1W QP11711449
3159 4822 051 20101 100R00 5% 0.1W QP05120101
3160 4822 117 10833 10k 1% 0.1W QP11710833

MISCELLANEOUS

1002 2422 026 05047 CONNECTOR CINCH H 6P

F RDWHYE B

QU02605047

1003 4822 267 10994 CONNECTOR 4P MDIN QP26710994
1004 2422 025 16526 CONNECTOR 22P F 1.00

FFC 0.3 R

QU02516526

1005 4822 267 31729 CONNECTOR QP26731729
1006 2422 026 05049 CON BM CINCH H 3P F QU02605049
1007 2422 025 16525 CONNECTOR 16P F 1.00

FFC 0.3 R

QU02516525

5000 4822 157 70601 COIL 100UH (920927085A) QP15770601
5003

5007

4822 242 10756 FILTER L/C

DSS306-92Y5S221M100

QP24210756

7020 9322 155 28667 CONNECTOR

GP1FA550TZ (SRPJ)L

AV CIRCUIT BOARD (/N1B)
CAPACITORS

2032 4822 126 13482 CER. 470NF +80 -20% 16V QP12613482
2353 4822 124 40769 ELECT 4.7

F 20% 100V QP12440769
2354 4822 126 14076 CER. 220N 25V QP12614076
2355 4822 124 40769 ELECT 4.7

F 20% 100V QP12440769
2357 4822 124 40769 ELECT 4.7

F 20% 100V QP12440769
2358 4822 122 33575 CER. 220pF 5% 63V QP12233575
2359 4822 124 40769 ELECT 4.7

F 20% 100V QP12440769
2360 4822 126 13692 CER. 47pF 1% 63V QP12613692
2361 4822 126 13692 CER. 47pF 1% 63V QP12613692
2371 4822 122 33575 CER. 220pF 5% 63V QP12233575
2372 4822 124 40769 ELECT 4.7

F 20% 100V QP12440769
2373 4822 124 40769 ELECT 4.7

F 20% 100V QP12440769
2377 4822 122 33575 CER. 220pF 5% 63V QP12233575
2378 4822 124 40769 ELECT 4.7

F 20% 100V QP12440769
2382 4822 124 40769 ELECT 4.7

F 20% 100V QP12440769
2383 4822 124 40769 ELECT 4.7

F 20% 100V QP12440769
2385 4822 124 40769 ELECT 4.7

F 20% 100V QP12440769
2395 4822 122 33575 CER. 220pF 5% 63V QP12233575
2402 4822 122 33575 CER. 220pF 5% 63V QP12233575
2404 4822 122 33575 CER. 220pF 5% 63V QP12233575
2408 4822 122 33575 CER. 220pF 5% 63V QP12233575
2409 4822 122 33575 CER. 220pF 5% 63V QP12233575
2412 4822 124 40433 ELECT 47

F 20% 25V QP12440433

2450 5322 122 32654 CER. 22N 63V QQ12232654
2452 4822 126 14076 CER. 220N 25V QP12614076
2453 4822 124 40433 ELECT 47

F 20% 25V QP12440433
2455 5322 122 32531 CER. 100pF 5% 50V QQ12232531
2456 4822 124 22339 ELECT 100

E 16V QP12422339
2457 5322 126 10511 CER. 1NF 5% 50V QQ12610511
2458 5322 122 32654 CER. 22N 63V QQ12232654
2459 5322 122 32531 CER. 100pF 5% 50V QQ12232531
2460 5322 122 32654 CER. 22N 63V QQ12232654
2461 5322 122 32531 CER. 100pF 5% 50V QQ12232531
2462 4822 124 22339 ELECT 100

E 16V QP12422339
2463 5322 126 10511 CER. 1NF 5% 50V QQ12610511
2464 5322 122 32531 CER. 100pF 5% 50V QQ12232531
2469 5322 122 32654 CER. 22N 63V QQ12232654
2471 4822 126 14585 CER. 100NF 10% 50V QP12614585
2472 4822 124 40433 ELECT 47

F 20% 25V QP12440433
2488 4822 126 14585 CER. 100NF 10% 50V QP12614585
2495 4822 126 14585 CER. 100NF 10% 50V QP12614585
2496 5322 122 32654 CER. 22N 63V QQ12232654
2497 4822 124 81151 ELECT 22

F 50V QP12481151
2498 4822 124 41584 ELECT 100

F 20% 10V QP12441584
2499

4822 122 33575 CER. 220pF 5% 63V QP12233575
2505
2506

4822 124 40763 ELECT 2.2 F 100V QP12440763
2509
2511 4822 124 40763 ELECT 2.2

F 100V QP12440763

2520

4822 122 33575 CER. 220pF 5% 63V QP12233575
2523
2527

5322 122 32654 CER. 22N 63V QQ12232654
2537
2538 4822 124 40763 ELECT 2.2

F 100V QP12440763

2539 4822 124 40763 ELECT 2.2

F 100V QP12440763

2540 4822 124 40763 ELECT 2.2

F 100V QP12440763
2541 4822 126 14585 CER. 100NF 10% 50V QP12614585
2542 4822 126 14491 CER. 2.2

F 10V QP12614491
2543 4822 126 13692 CER. 47pF 1% 63V QP12613692
2544 4822 124 40248 ELECT 10

F 20% 63V QP12440248
2545 4822 124 40433 ELECT 47

F 20% 25V QP12440433

73

POS.

NO

VERS.

COLOR

PART NO.

(PCS)

DESCRIPTION

PART NO.

(MJI)

POS.

NO

VERS.

COLOR

PART NO.

(PCS)

DESCRIPTION

PART NO.

(MJI)

DIODES

6302 4822 130 83757 DIODE BAS216 QP13083757
6401 4822 130 11047 DIODE BZX284-C9V1 QP13011047
6403 4822 130 83757 DIODE BAS216 QP13083757
6404 4822 130 11383 DIODE BZX284-C5V1 QP13011383

SEMICONDUCTORS

7400 9322 134 92676 IC ANA L78L33
7401 4822 209 17423 IC ANA UAD1328T QP20917423
7403 4822 209 32071 IC ANA MC33079D QP20932071
7900

5322 209 14481 IC DIG HEF4053BT QQ20914481
7905
7917 4822 209 17512 IC ANA TEA6420D QP20917512

7006 5322 130 60159 TRS. BC846B QQ13060159
7007 5322 130 60159 TRS. BC846B QQ13060159
7008 5322 130 60159 TRS. BC846B QQ13060159
7009 4822 130 60373 TRS. BC856B QP13060373
7010

5322 130 60159 TRS. BC846B QQ13060159
7014
7300 4822 130 60373 TRS. BC856B QP13060373
7301 5322 130 60159 TRS. BC846B QQ13060159
7304 9322 134 86668 TRS. LF80C
7310 5322 130 60159 TRS. BC846B QQ13060159
7329 5322 130 60159 TRS. BC846B QQ13060159
7330 5322 130 60159 TRS. BC846B QQ13060159
7331 4822 130 40959 TRS. BC547B QP13040959
7332 4822 130 60373 TRS. BC856B QP13060373
7333 4822 130 41246 TRS. BC327-25 QP13041246
7334 5322 130 60159 TRS. BC846B QQ13060159
7335 5322 130 60159 TRS. BC846B QQ13060159
7402 4822 130 42804 TRS. BC817-25 QP13042804
7404

4822 130 42615 TRS. BC817-40 QP13042615
7407
7918

5322 130 60159 TRS. BC846B QQ13060159
7935
7936

4822 130 60373 TRS. BC856B QP13060373
7939
7941 4822 130 60373 TRS. BC856B QP13060373
7942 4822 130 60373 TRS. BC856B QP13060373
7943 5322 130 60159 TRS. BC846B QQ13060159
7944 5322 130 60159 TRS. BC846B QQ13060159
7945 4822 130 60373 TRS. BC856B QP13060373
7946 4822 130 60373 TRS. BC856B QP13060373
7947 5322 130 60159 TRS. BC846B QQ13060159
7949 5322 130 60159 TRS. BC846B QQ13060159

RESISTORS

3036 4822 117 11449 2K2 5% 0.1W QP11711449
3038 4822 051 20223 22K00 5% 0.1W QP05120223
3039 4822 117 10834 47k 1% 0.1W QP11710834
3040 4822 051 20273 27K00 5% 0.1W QP05120273
3041 4822 051 20822 8K20 5% 0.1W QP05120822
3043 4822 117 13577 330R 1% 1.25W QP11713577
3044 4822 051 20223 22K00 5% 0.1W QP05120223
3045 4822 051 20101 100R00 5% 0.1W QP05120101
3046 4822 051 20101 100R00 5% 0.1W QP05120101
3049 4822 117 11927 75R 1% 0.1W QP11711927
3050 4822 117 11503 220R 1% 0.1W QP11711503
3056 4822 117 13577 330R 1% 1.25W QP11713577
3058 4822 051 20101 100R00 5% 0.1W QP05120101
3059 4822 051 20101 100R00 5% 0.1W QP05120101
3062 4822 117 11927 75R 1% 0.1W QP11711927
3063 4822 051 10102 1K00 2% 0.25W QP05110102

3300 4822 117 13577 330R 1% 1.25W QP11713577
3301 4822 051 20101 100R00 5% 0.1W QP05120101
3313 4822 117 11503 220R 1% 0.1W QP11711503
3314 4822 051 10102 1K00 2% 0.25W QP05110102
3315 4822 051 20471 470R00 5% 0.1W QP05120471
3316 4822 117 10834 47k 1% 0.1W QP11710834
3318 4822 117 10834 47k 1% 0.1W QP11710834
3319 4822 051 10102 1K00 2% 0.25W QP05110102
3320 4822 117 10834 47k 1% 0.1W QP11710834
3321 4822 051 20101 100R00 5% 0.1W QP05120101
3322 4822 051 20101 100R00 5% 0.1W QP05120101
3323 4822 051 20471 470R00 5% 0.1W QP05120471
3325 4822 117 10834 47k 1% 0.1W QP11710834
3339 4822 051 10102 1K00 2% 0.25W QP05110102
3340 4822 051 10102 1K00 2% 0.25W QP05110102
3343 4822 117 11927 75R 1% 0.1W QP11711927
3345 4822 117 11927 75R 1% 0.1W QP11711927
3347 4822 051 10102 1K00 2% 0.25W QP05110102
3348 4822 051 10102 1K00 2% 0.25W QP05110102
3349 4822 117 10834 47k 1% 0.1W QP11710834
3351 4822 051 20471 470R00 5% 0.1W QP05120471
3359 4822 117 10834 47k 1% 0.1W QP11710834
3363 4822 051 10102 1K00 2% 0.25W QP05110102
3366 4822 117 10834 47k 1% 0.1W QP11710834
3394 4822 051 20471 470R00 5% 0.1W QP05120471
3397 4822 117 10834 47k 1% 0.1W QP11710834

3407 4822 117 11927 75R 1% 0.1W QP11711927
3408 4822 117 11927 75R 1% 0.1W QP11711927
3409 4822 117 11503 220R 1% 0.1W QP11711503
3413 4822 117 10834 47k 1% 0.1W QP11710834
3425 4822 117 11927 75R 1% 0.1W QP11711927
3432 4822 117 11927 75R 1% 0.1W QP11711927
3442 4822 051 20101 100R00 5% 0.1W QP05120101
3444 4822 117 10833 10k 1% 0.1W QP11710833
3445 4822 117 10833 10k 1% 0.1W QP11710833
3446 4822 117 12955 2K7 1% 0.1W QP11712955
3447 4822 117 12955 2K7 1% 0.1W QP11712955
3448 4822 117 10833 10k 1% 0.1W QP11710833
3451 4822 117 10833 10k 1% 0.1W QP11710833
3453 4822 117 10833 10k 1% 0.1W QP11710833
3454 4822 117 10833 10k 1% 0.1W QP11710833
3455 4822 117 10833 10k 1% 0.1W QP11710833
3457 4822 051 20101 100R00 5% 0.1W QP05120101
3459 4822 117 10833 10k 1% 0.1W QP11710833
3461 4822 117 10833 10k 1% 0.1W QP11710833
3462 4822 117 12955 2K7 1% 0.1W QP11712955
3463 4822 117 12955 2K7 1% 0.1W QP11712955
3464 4822 117 10833 10k 1% 0.1W QP11710833

3505 4822 051 20101 100R00 5% 0.1W QP05120101
3507 4822 051 20101 100R00 5% 0.1W QP05120101
3508 4822 117 12521 68R 1% 0.1W QP11712521
3511 4822 117 10833 10k 1% 0.1W QP11710833
3512 4822 117 10833 10k 1% 0.1W QP11710833
3517 4822 051 20101 100R00 5% 0.1W QP05120101
3519 4822 051 20562 5K6 5% 0.1W QP05120562
3610 4822 051 20472 4K70 5% 0.1W QP05120472
3611 4822 051 20472 4K70 5% 0.1W QP05120472
3612 4822 117 10834 47k 1% 0.1W QP11710834
3613 4822 117 12955 2K7 1% 0.1W QP11712955
3614 4822 051 20223 22K00 5% 0.1W QP05120223
3615 4822 117 11152 4R7 5% QP11711152
3616 4822 051 20472 4K70 5% 0.1W QP05120472
3617 4822 117 10833 10k 1% 0.1W QP11710833
3618 4822 051 10102 1K00 2% 0.25W QP05110102
3619 4822 117 10833 10k 1% 0.1W QP11710833
3620 4822 051 10008 0R00 5% 0.25W QP05110008
3621 4822 051 20472 4K70 5% 0.1W QP05120472

74

POS.

NO

VERS.

COLOR

PART NO.

(PCS)

DESCRIPTION

PART NO.

(MJI)

POS.

NO

VERS.

COLOR

PART NO.

(PCS)

DESCRIPTION

PART NO.

(MJI)

3622 4822 117 10833 10k 1% 0.1W QP11710833
3623 4822 051 20472 4K70 5% 0.1W QP05120472
3624 4822 117 10833 10k 1% 0.1W QP11710833
3625 4822 051 10102 1K00 2% 0.25W QP05110102
3629 4822 117 11927 75R 1% 0.1W QP11711927
3632 4822 051 20101 100R00 5% 0.1W QP05120101
3634 4822 117 11449 2K2 5% 0.1W QP11711449
3635 4822 117 11503 220R 1% 0.1W QP11711503
3636

4822 117 10837 100k 1% 0.1W QP11710837
3643
3646 4822 117 10837 100k 1% 0.1W QP11710837
3647 4822 117 10837 100k 1% 0.1W QP11710837
3648

4822 117 13577 330R 1% 1.25W QP11713577
3651
3653 4822 117 13577 330R 1% 1.25W QP11713577
3672

4822 117 11927 75R 1% 0.1W QP11711927
3675
3676 4822 117 10353 150R 1% 0.1W QP11710353
3677 4822 117 11927 75R 1% 0.1W QP11711927
3678

4822 051 20101 100R00 5% 0.1W QP05120101
3685
3687 4822 051 20472 4K70 5% 0.1W QP05120472
3688 4822 051 20101 100R00 5% 0.1W QP05120101
3689 4822 051 20101 100R00 5% 0.1W QP05120101
3690

4822 051 10102 1K00 2% 0.25W QP05110102
3694
3695 4822 117 10833 10k 1% 0.1W QP11710833
3696 4822 117 10833 10k 1% 0.1W QP11710833
3697

4822 051 10102 1K00 2% 0.25W QP05110102
3700
3701 4822 051 20471 470R00 5% 0.1W QP05120471
3702 4822 051 10102 1K00 2% 0.25W QP05110102
3703

4822 117 11507 6K8 1% 0.1W QP11711507
3707
3720 4822 117 11148 56K 1% 0.1W QP11711148
3721 4822 117 10353 150R 1% 0.1W QP11710353
3722 4822 117 11148 56K 1% 0.1W QP11711148
3723 4822 117 11148 56K 1% 0.1W QP11711148
3724

4822 051 20229 22R00 5% 0.1W QP05120229
3731
3732

4822 117 13577 330R 1% 1.25W QP11713577
3747
3748

4822 117 10837 100k 1% 0.1W QP11710837
3761
3762 4822 117 11504 270R 1% 0.1W QP11711504
3763 4822 051 20101 100R00 5% 0.1W QP05120101
3764 4822 117 10833 10k 1% 0.1W QP11710833
3765 4822 117 10833 10k 1% 0.1W QP11710833
3768

4822 117 10834 47k 1% 0.1W QP11710834
3772
3773 4822 117 10833 10k 1% 0.1W QP11710833
3774 4822 117 10834 47k 1% 0.1W QP11710834
3800 4822 051 20472 4K70 5% 0.1W QP05120472
3801 4822 051 20472 4K70 5% 0.1W QP05120472
!3802 4822 117 11152 4R7 5% QP11711152
!3803 4822 117 11152 4R7 5% QP11711152
3804 4822 117 10834 47k 1% 0.1W QP11710834
3805 4822 117 10833 10k 1% 0.1W QP11710833

3999 4822 117 12842 QP11712842

MISCELLANEOUS

1300 4822 265 11154 CONNECTOR

52030-2210 (22P)

QP26511154

1301 4822 265 11103 CONNECTOR

52030-1610 (16P)

QP26511103

1303 4822 267 10994 CONNECTOR 4P MDIN QP26710994
1304 2422 033 00334 CON BM EURO H 42P F

BK GRND-L

QU03300334

1402 4822 265 11566 CONNECTOR 3P YKC21-3930 QP26511566
1405 4822 267 31729 CONNECTOR QP26731729
1410 4822 265 41392 CONNECTOR B7B-EH-A QP26541392

5400 4822 157 70601 COIL 100µH (920927085A) QP15770601
6400 4822 130 10845 CONNECTOR GP1F32T QP13010845

FRONT CIRCUIT BOARD
CAPACITORS

2100 /N1B 4822 122 33575 CER. 220pF 5% 63V QP12233575
2101 /N1B 4822 122 33575 CER. 220pF 5% 63V QP12233575
2102 5322 122 32531 CER. 100pF 5% 50V QQ12232531
2103 5322 122 32531 CER. 100pF 5% 50V QQ12232531
2105 4822 126 12105 CER. 33NF 50V QP12612105
2106 4822 124 40248 ELECT 10µF 20% 63V QP12440248
2107

4822 126 12105 CER. 33NF 50V QP12612105
2111
2114 5322 122 32658 CER. 22pF 5% 50V QQ12232658
2115 5322 122 32658 CER. 22pF 5% 50V QQ12232658
2116 4822 126 12105 CER. 33NF 50V QP12612105
2117 4822 124 40248 ELECT 10µF 20% 63V QP12440248
2122 4822 126 12105 CER. 33NF 50V QP12612105
2123 4822 124 11947 ELECT 10µF 20% 16V QP12411947
2124 3198 028 42290 ELECT 22µF 35V
2125 5322 122 32658 CER. 22pF 5% 50V QQ12232658
2126 4822 124 40248 ELECT 10µF 20% 63V QP12440248
2128 5322 122 31647 CER. 1NF 10% 63V QQ12231647
2129 3198 028 42290 ELECT 22µF 35V
2130 3198 028 42290 ELECT 22µF 35V
2201 4822 126 12105 CER. 33NF 50V QP12612105
2211 5322 122 32531 CER. 100pF 5% 50V QQ12232531

DIODES

6100 /N1B 4822 130 83757 DIODE BAS216 QP13083757
6101 4822 130 11666 DIODE BZX284-C8V2 QP13011666
6102 4822 130 10794 DIODE BZX284-C10 QP13010794
6104 4822 130 83757 DIODE BAS216 QP13083757
6200 4822 130 82978 LED LTL-16KPE-P QP13082978

SEMICONDUCTORS

7104 /N1B 3104 123 94532 IC DIG TMP87CH74F-1E29-V2.

18-DVDSLAVE

QW12394532

7104

/A1B,
/S1G,/U1B

3104 123 94761 IC DIG ROM TMP87CH74 QW12394761

7112 4822 209 31257 IC ANA MC79L24ACP QP20931257
7100 5322 130 60159 TRS. BC846B QQ13060159
7101 /N1B 5322 130 60159 TRS. BC846B QQ13060159
7102 5322 130 60159 TRS. BC846B QQ13060159
7103 5322 130 60159 TRS. BC846B QQ13060159
7105 4822 130 40855 TRS. BC337 QP13040855
7106 4822 130 40854 TRS. BC327 QP13040854
7107 5322 130 60159 TRS. BC846B QQ13060159
7108 5322 130 60159 TRS. BC846B QQ13060159
7109 4822 130 60373 TRS. BC856B QP13060373
7110 4822 212 30842 REMOTE RECEIVER

TSOP1736SB1

QP21230842

75

POS.

NO

VERS.

COLOR

PART NO.

(PCS)

DESCRIPTION

PART NO.

(MJI)

POS.

NO

VERS.

COLOR

PART NO.

(PCS)

DESCRIPTION

PART NO.

(MJI)

RESISTORS

3100 /N1B 4822 051 20223 22K00 5% 0.1W QP05120223
3101 /N1B 4822 051 20273 27K00 5% 0.1W QP05120273
3102 /N1B 4822 117 10834 47k 1% 0.1W QP11710834
3103 4822 117 11149 82k 1% 0.1W QP11711149
3104 /N1B 4822 117 10837 100k 1% 0.1W QP11710837
3106 /N1B 4822 117 11503 220R 1% 0.1W QP11711503
3108 4822 117 11149 82k 1% 0.1W QP11711149
3109

4822 051 20472 4K70 5% 0.1W QP05120472
3113
3114 4822 051 20109 10R00 5% 0.1W QP05120109
3115 4822 051 20472 4K70 5% 0.1W QP05120472
3116 4822 117 11149 82k 1% 0.1W QP11711149
3117 4822 117 11152 4R7 5% QP11711152
3118 4822 117 10833 10k 1% 0.1W QP11710833
3119 4822 117 10833 10k 1% 0.1W QP11710833
3120 4822 051 20471 470R00 5% 0.1W QP05120471
3121 4822 051 20472 4K70 5% 0.1W QP05120472
3122 4822 051 20109 10R00 5% 0.1W QP05120109
3123 4822 117 10833 10k 1% 0.1W QP11710833
3125 4822 051 20109 10R00 5% 0.1W QP05120109
3130 4822 051 20109 10R00 5% 0.1W QP05120109
3131 4822 117 11152 4R7 5% QP11711152
3132 4822 117 13577 330R 1% 1.25W QP11713577
3133 4822 051 20109 10R00 5% 0.1W QP05120109
3134 4822 117 13577 330R 1% 1.25W QP11713577
3135 4822 117 11503 220R 1% 0.1W QP11711503
3136 4822 051 10102 1K00 2% 0.25W QP05110102
3137 4822 117 10833 10k 1% 0.1W QP11710833
3138 4822 051 20471 470R00 5% 0.1W QP05120471
3139 4822 051 20472 4K70 5% 0.1W QP05120472
3140 4822 117 10833 10k 1% 0.1W QP11710833
3142 4822 117 13577 330R 1% 1.25W QP11713577
3143 4822 117 10833 10k 1% 0.1W QP11710833
3144 4822 117 10837 100k 1% 0.1W QP11710837
3145 4822 117 10833 10k 1% 0.1W QP11710833
3151 4822 051 20101 100R00 5% 0.1W QP05120101

MISCELLANEOUS

0002 3139 244 00440 FTD HOLDER DVD711 QT24400440
0020

/A1B,
/S1G,/U1B

2422 025 04849 CONNECTOR,BMT 2P QU02504849

1100 4822 276 13775 SWITCH PUSH BUTTON QP27613775
1101 4822 276 13775 SWITCH PUSH BUTTON QP27613775
1102 4822 276 13775 SWITCH PUSH BUTTON QP27613775
1106

4822 276 13775 SWITCH PUSH BUTTON QP27613775
1109
1110 2422 540 98423 RES CER 8MHZ CSTS*MG03 QU54098423
1111 /N1B 4822 276 13775 SWITCH PUSH BUTTON QP27613775
1113 2722 171 07172 VIDEO DECODER

UNIT 14-MT-27GNK

1115 4822 267 10565 CONNECTOR PRINTED

CIRCUIT 4P

QP26710565

1117 /N1B 4822 267 10565 CONNECTOR PRINTED

CIRCUIT 4P

QP26710565

1117

/A1B,
/S1G,/U1B

2412 020 00724 CONNECTOR 2P

1118 4822 267 10637 CONNECTOR 5P QP26710637
1205 /N1B 4822 267 10567 CONNECTOR 4P QP26710567
1205

/A1B,
/S1G,/U1B

2422 025 12488 CONNECTOR 2P QU02512488

CAUTION

For repairing the DVD Module ADS-1,
the serice application software "ComPair"
is needed. The application CD-ROM
"ComPair" is available via MARANTZ
orgauization or PCS. <Refer the page 5>
A "service Bulletin" will oublish the latest
"ComPair" information.

Published by MT0065 Service DPS Hasselt Printed in the Netherlands Subject to modification 5 3122 785 10840

©

Copyright reserved 2000 Philips Consumer Electronics B.V. Eindhoven, The

Netherlands. All rights reserved. No part of this publication may be reproduced,
stored in a retrieval system or transmitted, in any form or by any means, electronic,
mechanical, photocopying, or otherwise without the prior permission of Philips.

DVD-Video Player DVD Module ASD-1

(Euro) 3104 129 21910

(Non euro) 3104 129 21920

CL06532065-000.eps

180500

Contents Page

1 Technical specifications 2
2 Warnings and remarks 4
3 Directions for use (not available) 6
4 Mechanical instructions 7
5 Test instructions 9

Diagnostic software description 17

6 Block diagram Servo part 29

Block diagram Digital part 30

7

Electrical diagrams & pwb’s Diagr. PWB

Servo DALAS (Diagram 1) 31 37-42
Servo MACE (Diagram 2) 32 37-42
Decoder (Diagram 3) 33 37-42
Memory (Diagram 4) 34 37-42
STI 5505 (Diagram 5) 35 37-42
Service interface and back-end (Diagram 6) 36 37-42

Testpoint overview 43 37-42
8 Alignments (not available) 45
9 IC Descriptions 45
10 Sparepart list 85

Technical Specifications

GB 2 ASD-11.

1. Technical Specifications

1.1 Connections

1.1.1 Connector 1600: Supply input connector.

1. +3V3stby

2. +3V3stby

3. +5V

4. +5Vstby

5. Vreserved

6. GND

7. GND

8. GND

9. -8Vstby

10. Standby control line

11. +12Vstby

12. GND

1.1.2 Connector 1603: A/V 1 connector.

1. P50

2. Blue Video

3. Green Video

4. GND

5. Red Video

6. CVBS

7. GND

8. Slow blanking scart

9. -8Vstby

10. +5V

11. +5V

12. Audio mute

13. GND

14. I2S data0 out

15. I2S wordselect

16. I2S bitclock

17. GND

18. I2S systemclock

19. Center_on

20. Kar_bypass

21. Kar_bypass

22. GND

1.1.3 Connector 1604: A/V 2 connector.

1. GND

2. Hor. sync.

3. GND

4. I2S data 2 out

5. GND

6. I2S data 1 out

7. -8Vstby

8. I2C clock

9. +12Vstby

10. I2C data

11. Vreserved

12. +3V3

13. GND

14. C video

15. GND

16. Y video

1.1.4 Connector 1501: I2C interface connector.

1. I2C clock

2. GND

3. I2C data

4. Standby control line

5. P50

1.1.5 Connector 1602: Service connector.

1. TXD

2. Service activation

3. RXD

4. Reserved for RTS

5. 5: GND

6. Reserved for CTS

7. +5V

1.2 Signal specifications

This the specification of all signals as described under
“Connections”
H = +5V ±0.5V
h = 3V3 ±0.3V
L = 0V ±0.5V
l = 0V ±0.3V
Stby : If the set supports a

“standby” function, all
supply voltages
marked with “stby”
have to stay on during
standby.

Standby control line : HStandby mode

: LOn mode.

P50 : Connection between

front and A/V board,
and can be used as
P50 signal line. The
signal is not
connected to the
module electronics.

Slow blanking scart : This signal switches

between

: 0V (220Ωoutput

impedance)

: 12Vstby/2 (455Ω

output impedance)

: 12vstby (690Ω output

impedance)

Audio mute : Can be used for audio

mute transistors
during stop or power

on/off.
: Mute on : +5Vstby
: Mute off: -8Vstby via a

10kΩ resistor.

I2S data0 out : I2S front data output.

: Level h/l

I2S wordselect / I2S bitclock : I2S timing signals

: Level h/l

I2S systemclock : 256xFS audio

systemclock.
: Level H/L

Kar_bypass : Bypasses the karaoke

chip on the A/V board.
: Bypass activeH
: Bypass offL

Center_on : Switches the center

audio to the scart

output.
: Center to scarth
: L/R to scartl

SPDIF out : Digital audio output

: Level H/L

Technical Specifications

GB 3ASD-1 1.

Hor. Sync : Video Horizontal

synchronisation

: Level h/l

I2S data1 out : I2S surround data

output.

: Level: h/l.

I2S data2 out : I2S center/sub data

output.

: Level h/l.

I2C clock / I2C data : I2C databus

: Level: H/L

TXD / RXD / RTS / CTS : Service UART to be

connected direct to

PC serial input.
: Output levelsH/L
: Input levelsRS232

compliant

Service activation : Signal openNormal

module start-up
: Signal tied to GND

Module start-up in

service mode.

Vreserved : Reserved in case the

A/V board requires an

extra supply voltage.
: This supply is limited

by a positive polarised

47uF/16V elco +

100nF/16V.

1.3 Performance:

1.3.1 Digital output

CDDA/LPCM : according IEC958
MPEG1 is converted to LPCM :
MPEG2, AC3 audio. : according IEC1937
DTS. : according IEC61937

amendment 1.
: Digital output level is

0V / 5V with GND as

reference. To meet

the standards a

decouple circuit is

necesary.

1.3.2 I2S output

Accuracy : Up to 24bit.
Sample rate : 44.1kHz / 48kHz.
Standard : Philips I2S output
Number of I2S outputs : 3 (6 channel: Front /

Surround / Center-

Bass)

Deemphasis : Already processed in

module.

Audio source streams : CDDA / MPEG1 /

LPCM / MPEG2 / AC3
: No DTS decoding.

Audio trick modes : Dolby Pro Logic

(multichannel

downmix on front

output)
: 3D sound.

1.3.3 Analog output

The module has no analog audio
ouput. : The analog audio

specification will be

determined by the
external DAC circuit.

1.3.4 Video.

Standards : The video output

standard will follow
the source material.

: The OSD standard is

switchable between
PAL or NTSC.

Outputs : The module has 6

analog outputs (3
f o r m a t s ) : Y / C C V B S
RGB.

Specification. : The output is fully

according PQR3 IMS
except

: Output load>1kΩ to

GND / Cap. load
<47pF.

: Level0.5Vpp with

100% white

: DC-levelSync bottom

= -0.65V ±10%

: Some specification

points are significantly
better then PQR3

: SNR on all video

outputs is better then
60dB.

: Video bandwidth

>5MHz (±3dB)

Warnings and Laser safety instructions

GB 4 ASD-12.

2. Warnings and Laser safety instructions

SHOCK, FIRE HAZARD SERVICE TEST:
CAUTION: After servicing this appliance and prior to returning to customer, measure the resistance between

either primary AC cord connector pins (with unit NOT connected to AC mains and its Power switch ON), and the
face or Front Panel of product and controls and chassis bottom,
Any resistance measurement less than 1 Megohms should cause unit to be repaired or corrected before AC
power is applied, and verified before return to user/customer.
Ref.UL Standard NO.1492.

NOTE ON SAFETY:

Symbol

: Fire or electrical shock hazard. Only original parts should be used to replace any part with symbol

Any other component substitution(other than original type), may increase risk or fire or electrical shock hazard.

F

ATTENTION

Tous les IC et beaucoup d’autres semi­conducteurs sont sensibles aux décharges
statiques (ESD).
Leur longévité pourrait être considérablement
écourtée par le fait qu’aucune précaution
n’est prise a leur manipulation.
Lors de réparations, s’assurer de bien être
relié au même potentiel que la masse de
l’appareil et enfiler le bracelet serti d’une
résistance de sécurité.
Veiller a ce que les composants ainsi que les
outils que l’on utilise soient également a ce
potentiel.

D

WARNUNG

Alle IC und viele andere Halbleiter sind
empfindlich gegen elektrostatische
Entladungen (ESD).
Unsorgfältige Behandlung bei der Reparatur
kann die Lebensdauer drastisch vermindern.
Sorgen sie dafür, das Sie im Reparaturfall
über ein Pulsarmband mit Widerstand mit
dem Massepotential des Gerätes verbunden
sind.
Halten Sie Bauteile und Hilfsmittel ebenfalls
auf diesem Potential.

WAARSCHUWING

Alle IC’s en vele andere halfgeleiders zijn
gevoelig voor elektrostatische ontladingen
(ESD).
Onzorgvuldig behandelen tijdens reparatie
kan de levensduur drastisch doen
verminderen.
Zorg ervoor dat u tijdens reparatie via een
polsband met weerstand verbonden bent met
hetzelfde potentiaal als de massa van het
apparaat.
Houd componenten en hulpmiddelen ook op
ditzelfde potentiaal.

AVVERTIMENTO

Tutti IC e parecchi semi-conduttori sono
sensibili alle scariche statiche (ESD).
La loro longevita potrebbe essere fortemente
ridatta in caso di non osservazione della piu
grande cauzione alla loro manipolazione.
Durante le riparazioni occorre quindi essere
collegato allo stesso potenziale che quello
della massa dell’apparecchio tramite un
braccialetto a resistenza.
Assicurarsi che i componenti e anche gli
utensili con quali si lavora siano anche a
questo potenziale.

All ICs and many other semi-conductors are
susceptible to electrostatic discharges (ESD).
Careless handling during repair can reduce
life drastically.
When repairing, make sure that you are
connected with the same potential as the
mass of the set via a wrist wrap with
resistance.
Keep components and tools also at this
potential.

WARNING

Safety regulations require that the set be restored to its original condition
and that parts which are identical with those specified be used.

Veiligheidsbepalingen vereisen, dat het apparaat in zijn oorspronkelijke
toestand wordt terug gebracht en dat onderdelen, identiek aan de
gespecifieerde worden toegepast.

Bei jeder Reparatur sind die geltenden Sicherheitsvorschriften zu beachten.
Der Originalzustand des Gerats darf nicht verandert werden.
Fur Reparaturen sind Original-Ersatzteile zu verwenden.

Le norme di sicurezza esigono che l’apparecchio venga rimesso nelle
condizioni originali e che siano utilizzati pezzi di ricambiago idetici a quelli
specificati.

Les normes de sécurité exigent que l’appareil soit remis a l’état d’origine et
que soient utilisées les pièces de rechange identiques à celles spécifiées.

“Pour votre sécurité, ces documents
doivent être utilisés par des
spécialistes agrées, seuls habilités à
réparer votre appareil en panne.”

GB

NL

I

D

I

F

GB

NL

CL 96532065_002.eps

120799

Warnings and Laser safety instructions

GB 5ASD-1 2.

LASER SAFETY

This unit employs a laser. Only a qualified service person should remove the cover or attempt to service thi

s

device, due to possible eye injury.

LASER DEVICE UNIT

Type: Semiconductor laser GaAlAs
Wave length: 650 nm (DVD)

780 nm (VCD/CD)

Output Power: 7 mW (DVD)

10 mW (VCD/CD)

Beam divergence: 60 degree

USE OF CONTROLS OR ADJUSTMENTS OR PERFORMANCE OF PROCEDURE OTHER THAN THOS

E

SPECIFIED HEREIN MAY RESULT IN HAZARDOUS RADIATION EXPOSURE.

AVOID DIRECT EXPOSURE TO BEAM

WARNING

The use of optical instruments with this product will increase eye hazard.
Repair handling should take place as much as possible with a disc loaded inside the player

WARNING LOCATION: INSIDE ON LASER COVERSHIELD

CAUTION VISIBLE AND INVISIBLE LASER RADIATI ON WHEN OPEN AVO ID EXPOSURE TO BEAM
ADVARSEL SYNLIG OG USYNLIG LASERSTRÅLING VED ÅBNING UNDGÅ UDSÆTTELSE FOR STRÅLING
ADVARSEL SYNLIG OG USYNLIG LASERSTRÅLING NÅR DEKSEL ÅPNES UNNGÅ EKSPONERING FOR STRÅLEN
VARNING SYNLIG OCH OSYNLIG LASERSTRÅLNING NÄR DENNA DEL ÄR ÖPPNAD BETRAKTA EJ STRÅLEN
VARO! AVATT AESSA OLET ALTTIINA NÄKYVÄLLE JA NÄKYMÄTTÖMÄLLE LASER SÄTEILYLLE. ÄLÄ KAT SO SÄTEESEEN
VORSICHT SICHTBARE UND UNSICHTBARE LASERSTRAHLUNG WENN ABDECKUNG GEÖFFNET NICHT DEM STRAHL AUSSETSEN
DANGER VISIBLE AND INVISIBLE LASER RADIATI ON WHEN OPEN AVO ID DIRECT EXPOSURE TO BEAM
ATTENTION RAYO NNEMENT LASER VISIBLE ET INVISIBLE EN CAS D'OUVERTURE EXPOSITION DANGEREUSE AU FAISCEAU

!

CL 06532065_051.eps

230500

Directions for use

GB 6 ASD-13.

3. Directions for use

There is no DFU available

Mechanical instructions

GB 7ASD-1 4.

4. Mechanical instructions

4 4822 358 10266 BELT
9 3139 198 80010 SWITCH
10 4822 532 13097 TULE
11 3139194 00270 TRAY
12 3139 197 50060 TRAY MOTOR ASSY

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Mechanical instructions

GB 8 ASD-14.

9305 023 61101 VAL6011/01 LOADER COMPLETE
1 3139 197 60090 GENEVA LP LOADER ASSY
2 9305 022 60101 VAM6001/01
3+4 3139 194 00710 SUSPENSION (YELLOW)
5+6 3139 194 00620 SUSPENSION (BLUE)
7 3139 197 60060 CLAMPER ASSY

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5. Test instructions mono board DVD-ASD1

5.1 General

• Impedance of measuring-equipment should be > 1MΩ.

• Most tests have to be done by software commands.
Together with the software command you will find a Ref.#
nbr. This is the number of the diagnostic nulceus used for
this test. More detailed information can be find in the
chapter “Diagnostic Nuclei”.

• Levels: Most measurements are digital measurements.
The high and low levels in this document got to have next
specification:
low : < 0.3V
high : > 3.0V
LOW : < 0.4V
HIGH : > 4.5V

• All voltages marked with “stby” have to stay on during
standby.

5.2 General start-up measurements

5.2.1 Supply check:

Pin nbr. Supply
1600-1 3V3
1600-2 3V3
1600-3 +5V0V during STAND BY
1600-4 +5Vstby
1600-5 +6V
1600-6 0V
1600-7 0V
1600-8 0V
1600-9 -8V
1600-10 0V5V during STAND BY
1600-11 +12Vstby
0V
Check the supply currents to be sure there are no large failures
on the board. Before measuring the currents, make sure that
no A/V board, display board or Mercury 1 loader is connected
to the mono board and that the PC interface cable is connected
to the board.
Also check if the servo part gets its power.
Testpoint F608: +3V3 ±5%
Testpoint F101: +9V ±5%
The supply currents can be measured using a Tektronix
AM503B current probe.
Supply power consumption
3V3 400mA ±10%
5V 370mA ±10%
5Vstby < 5mA

-8V 55mA ±10% fluctuation: ±20mA

12Vstby 30mA ±20% fluctuation: ±150mA

5.2.2 Reset check:

The reset circuit is triggered by the stand-by line. First make
sure that the STB_CONT line is HIGH by connecting 5V to
testpoint F505.
Then switch STB_CONT over to LOW and check next timing at
the STI5505 reset input (testpoint F503):

Figure 5-1

T 1 = 150msec ±25% (From 0V to 3V3 -3db)
If the reset input doesn’t go high then check the circuit around
transistor 7501.

5.2.3 Clock check

To check the correct functioning of the STI5505, we first have
to check the presence of all clocks.
All clocks to be measured with 0.02% tolerance.
Clock-name Testpoint Frequency
27M_CLK F051 27MHz
PCM_CLK F566 11.2896MHz

Figure 5-2

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Figure 5-3

5.3

µµµµ

P environment:

5.3.1 General:

All the tests are carried out by software tests. To start the
software tests, connect a PC to the serial bus of the STI5505.
Use connector 1602 for this connection:
Connector pin Signal
1602-1 TXD (STI5505 out)
1602-2 Service-mode select
1602-3 RXD (STI5505 in)
1602-4 RTS (STI5505 out)
1602-5 GND
1602-6 CTS (STI5505 in)
1602-7 +5V
Now start the terminal program. Make sure that the service-pin
of the µP is pulled low
(pin 1602-2) and then reset the µP (make the STB_CONT line
low). The terminal program of your PC should now display:
“DVD2 Diagnostic software version ...”. This message already
means that the µP is running. The first 5 commands from the
diagnostic software will be carried out automaticly during
diagnostic start-up. The other commands can be carried out by
selecting the “command input”. Just type the reference nbr. to
do the test.
To be sure that the µP is able to run the diagnostic software,
serial port will be checked during start-up.

5.3.2 Memory check:

The µP has a data bus that is connected to a DRAM (not
present!!) and a Flash.
The µP has also an internal link to the MPEG SDRAM
interface.
Next databus checks will be done at start-up to check this data­bus and SDRAM bus.

There are 2 memory checks left that can be done by hand
command

5.4 General I/O port & peripherals check

5.4.1 I2C bus / EEprom check

To access the EEprom, the I2C bus is used. So by writing and
reading to the EEprom the chip and the bus is checked. With
next commands a certain byte is written to the EEprom. The
original information will always be written back into the
EEprom.

The complete Eeprom can also be checked on failures by
writing to all addresses and reading back. This test takes a long
time (110 sec).

5.4.2 Audio clock switch check

For a DVD disc the audio clock has to be switched from

44.1KHz sampling to 48KHz sampling.
To do so IO-port 1 / 4 has to be switched. Send next commands
and check the audio-clock

Figure 5-4

Ref. # Reference Name Remark
(1) BasicSpAcc Serial port Access test/initialisation
(2) BasicDramWrR DRAM Write Read

Ref. # Command Name Remark
(2b) BasicInterconSDRAM Data and address bus

Interconnection

(2c) BasicInterconFlash Data and address bus

Interconnection

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Ref. # Command Name Remark
6 PapChksFl Checksum FLASH
16 CompSdramWrR SDRAM Write Read

Ref. # Command Name Remark
11 PapI2cNvram I2C NVRAM access

Ref. # Command Name Remark
15 PapNvramWrR NVRAM Write Read

Ref. # Remark Testpoint Frequency
7a (Clock A_CLK in

44.1kHz mode)

F566 11.2896MHz ± 0.02%

7b (Clock A_CLK in

48kHz mode)

F566 12.288MHz ± 0.02%

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Figure 5-5

5.4.3 Audio deemphasise check

The STI5505 output pins PIO 4-0 and PIO 4-1 were used to
switch deemphasis on a previous type of DAC. This function is
not used anymore, because deemphasis is done internally in
STI5505, but the name still remains. The lines are now used for
a series of functions such as centre_on_stereo or
karaoke_bypass. The PIO 4-0 has got a pull-up to +5V and the
PIO 4-1 has not. To check these pins these commands can be
used.
Ref. # Command Name Remark Testpoint Value
18e AudioDeemp0TristateOn PIO 4-0 Tristate On-----­56a AudioDeemp0On PIO 4-0 OnF630 HIGH
56b AudioDeemp0Off PIO 4-0 0 OffF630 low
18f AudioDeemp0TristateOff PIO 4-0 Tristate Off-----­56c AudioDeemp1On PIO 4-1 OnF633 high
56d AudioDeemp1Off PIO 4-1 OffF633 low

5.4.4 Audio mute check

Switch on the Mute circuit by sending next command:

Check the Mute output again at testpoint F625: 4.7V ±10%
Switch off the Mute circuit by sending next command

Check the Mute output at testpoint F625: -8V ±10%

5.4.5 Audio I2S check

To check the audio output, connect a audio DAC to the I2S
output (DVD950 A/V board) and start-up the audio test. Look at
the audio outputs from the A/V board for both sine and pink
noise.

The audio signal (sine or pink noise) will also be present on the
digital ouput (SPDif). This can be checked by connecting an
amplifier with digital input.
Check the I2S output.
LRCLK at testpoint F641

Figure 5-6

SCLK at testpoint F637

Figure 5-7

PCM_OUT0 at testpoint F638
PCM_OUT1 at testpoint F659
PCM_OUT2 at testpoint F658

Ref. # Command Name Remark
19a AudioMuteOn AudioMuteOn

Ref. # Command Name Remark
19a AudioMuteOff AudioMuteOff

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Ref. # Command

Name

Remark Audio outputs

21a AudioSineOn Audio Sine

signal Off

Audio Sine signal On
Sine, 1kHz on stereo
Press stop button

20a AudioPinkNoi

seOn

Audio
Pinknoise
On

Pink Noise on 6 channels

20b AudioPinkNoi

seOff

Audio
Pinknoise
Off

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Figure 5-8

PCM_CLK at testpoint F640

Figure 5-9

SPDIF at testpoint F644

Figure 5-10

To switch the audio signal off, press the STOP button on the
front.
Without A/V board all levels should be switching between low
and high except:

– PCM_OUT1 and PCM_OUT2 only between low and high

for pink noise. For sine, this is low.
– PCM_CLK and SPDIF switches between LOW and HIGH
Alternatively, there is a check that can be done without A/V
board.
First, let the decoder generate pink noise on the audio outputs.

Measure then these signals on level and frequency.
Signal Level between Frequency
LRCLK low/high 48kHz ± 0.02%
SCLK low/high 3.072MHz ± 0.02%
PCM_CLK LOW/HIGH 12.288 MHz ± 0.02%
PCM_OUT0, 1, 2 low/high N/A
SPDIF LOW/HIGH N/A
Put the pink noise off:

5.5 VIDEO

5.5.1 Video output check

Check DC output-level at all video-outputs at conn 1603­2,3,5,6 and conn 1604-16: -0.65V ± 10%
Generate a color-bar via next software commands:

Check video output at the next testpoints:
F646: R_VID

Figure 5-11

F649: G_VID

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Ref. # Command Name Remark
20a AudioPinkNoiseOn Audio Pinknoise On

Ref. # Command Name Remark
20b AudioPinkNoiseOff Audio Pinknoise Off

Ref. # Command Name Remark
23a VideoColDencOn Colourbar DENC On
23b VideoColDencOff Colourbar DENC Off

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Figure 5-12

F653: B_VID

Figure 5-13

F657: CVBS

Figure 5-14

F665: C_VID

Figure 5-15

F666: Y_VID

Figure 5-16

5.5.2 Scart-switching voltage

An aditional part of the video-path is the scart-switching
voltage.
This voltage can be 0V, 6V, 12V.
Check at testpoint F620 the output-voltage while using next
commands:

5.5.3 Video Hsync check.

To measure the correctness of this output, F656 should be
checked.

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Ref. # Command Name Remark
25a VideoScartLo Sends out 0V ± 0.5V
25b VideoScartMi Sends out 6V ± 10%
25c VideoScartHi Sends out 12V ± 10%

Ref. # Command

Name

Remark Value

23a VideoColDe

ncOn

Colourbar DENC on15.625 kHz ±

0.02% Vpeak-peak > 3V

23b VideoColDe

ncOff

Colourbar DENC off No

measurements needed

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Figure 5-17

5.6 Servo

5.6.1 General start-up measurements:

Reset the Basic Engine part

Check Vref

Name Testpoint Value
Vref F188 2.5V+/-0.3

Check I2S interface

Name Testpoint Value
B_BCLK F347 6.0MHz +/-0.1

Figure 5-18

CL1F33712.0MHz +/-0.2

Figure 5-19

B_WCLKF343HIGH
StopclkF338HIGH
B_SyncF344HIGH
B_V4F348HIGH

5.6.2 Spindle Motor:

Before switching on the discmotor, check the following
testpoints:
Name Testpoint Value
Stby F357 high
Stby-out F355 LOW
Moto1 F361 3V±0.3
Switch the Discmotor on/off with next commands:

Check the following signals when discmotor has been switched
on::
Name Pin nr. Frequency
Stby F357 low
Stby-out F355 HIGH
Moto1 F361 3V±0.5V
A3 F350 see oscillogram
A2 F352 see oscillogram
A1 F353 see oscillogram

Figure 5-20

Ref. # Command Name Remark
44 BeReset Basic Engin

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Ref. # Command Name Remark
39a BeDiscmotorOn Discmotor on
39b BeDiscmotorOff Discmotor off

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T1 F280 see oscillogram
T2 F368 see oscillogram
T3 F371 see oscillogram

Figure 5-21

VH F365 3V±0.5V
H1+ F354 see oscillogram
H1- F359 see oscillogram
H2+ F364 see oscillogram
H2- F366 see oscillogram
H3+ F367 see oscillogram
H3- F370 see oscillogram

Figure 5-22

Switch the discmotor off.

5.6.3 Radial

Swith the radial control on/off with the following commands:

Check the following signals:
Name Testpoint Value
Rad - F128 4.3V±0.5V
Rad + F121 4.3V±0.5V

Figure 5-23

Figure 5-24

Check for pulse density signal RA at testpoint F227

Figure 5-25

Check if laser is switched on (visual check of laserlight).
Switch the radial control off.

Ref. # Command Name Remark
40a BeRadialOn Radial control on
40b BeRadialOff Radial control off

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5.6.4 Sledge

Use the following commands to move the sledge:

Check pulse density signal SL at testpoint F221

Figure 5-26

Name Testpoint Value
Sl - F012 4.5V±0.5V
Sl + F011 4.5V±0.5V
Measure peak to peak signal on SL- and SL+ while moving
sledge outwards.
Name Testpoint Value
Sl - F012 10Vptp +/-0.5
Sl + F011 10Vptp +/-0.5
Measure input sledge control (sledge in home position)
Name Testpoint Value
Sinph F182 2.2V±0.5V
Cosph F192 2.2V±0.5V

5.6.5 Tray:

To open and close the tray use the following commands:

Measure the driver outputs of the BA5938FM for the tray
closed.
Name Testpoint Value
Vo2 - F116 4.3V±2.0V
Vo2 + F111 4.3V±2.0V
Measure again the driver outputs while the tray is opening.
Name Testpoint Value
Vo2 - F116 2.0V±1.0V
Vo2 + F111 6.0V±1.0V

5.6.6 Focus

To switch the Focus motor on/off, use the following commands:

Measure the driver outputs of the BA5938FM for the Focus off.

Name Testpoint Value
foc - F124 4.3V±0.5V
foc + F127 4.3V±0.5V
Switch the focus on
Measure again the driver outputs
Name Testpoint Value
Foc - (sawtooth) F124 1V±0.2V
Foc + (sawtooth) F127 1V±0.2V

Figure 5-27

Check for pulse density signal FO at testpoint F234

Figure 5-28

Check for laserlight.
Switch the focus off

5.6.7 Hf path

Play DVD test disc.
Measure outputs of diodes A, B, C, D, E, F.
Name Testpoint Value
A F140 2.6V±0.2V
B F141 2.6V±0.2V
C F143 2.6V±0.2V
D F144 2.6V±0.2V
E F147 2.6V±0.2V
F F148 2.6V±0.2V
At outputs of diodes A, B, C, D the following oscillogram can be
measured:

Ref. # Command Name Remark
41a BeSledgeIn Sledge inwards
41b BeSledgeOut Sledge outwards

Ref. # Command Name Remark
43a BeTrayIn Tray in
43b BeTrayOut Tray out

Ref. # Command Name Remark
38a BeFocusOn Focus on
38b BefocusOff Focus off

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Figure 5-29 cl06532065-031

Measure DVDALAS outputs
Name Testpoint Value
RFO DC F146 2.5V ±0.2V
O1 F156 25mV±10mV
O2 F159 25mV±10mV
O3 F169 25mV±10mV
O4 F166 25mV±10mV
S1 F174 25mV±10mV
S2 F175 25mV±10Mv
At output RFO, the following oscillogram can be measured:

Figure 5-30

5.7 Diagnostic software description
Introduction

5.7.1 Introduction

Purpose

This document describes all interfaces from the outside world
to the diagnostic software, what is needed to use these
interfaces and how to access them.
Changes for DVDv2b are marked.

Scope

This document has been realised within the framework of the
product development of the second generation DVD video
player. This player forms the basis for future DVD
developments as described in the DVDv2 Overall Project
Management Plan.

5.7.2 Definitions and abbreviations

Definitions

Control PC Automatic test equipment, part of the

production control system in the
factory, to control the execution of
Diagnostic Nuclei in the DVD player.

Diagnostic Nucleus Part of the Diagnostic Software. Each

nucleus contains an atomic and
software independent diagnostic test,
testing a functional part of the DVD
player hardware on component level.

Script Part of the Diagnostic Software. Each

script contains a sequence of
Diagnostic Nuclei to be executed.

Service PC PC used by a service- or repair-person

to communicate with the Diagnostic
Software in the DVD player.

Abbreviations

FDS Full Diagnostic Software

5.8 Overview of Interfaces

The table below shows an overview of the user interfaces of the
Diagnostic Software. The table is based on logical interface,
interfaces as seen from user perspective. A logical interface
can use one or more physical interface components. The DVD
has only a single RS232 port, implying that all interfaces using
this port are mutually exclusive.

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In the next chapters the logical user interfaces are described in
more detail including the exact use of the physical interface
components.

5.9 Description Of Interfaces

5.9.1 Menu Interface

The menu interface is part of the Level 2 / Second Line
diagnostic mode. Via the menu interface it is possible to control
the execution of the Diagnostic Nuclei.

Set-up physical interface components

Hardware required:

• Service PC

• one free COM port on the Service PC

• special cable to connect DVD player to Service PC

The service PC must have a terminal emulation program (e.g.
OS2 WarpTerminal or Procomm) installed and must have a
free COM port (e.g. COM1). Activate the terminal emulation
program and check that the port settings for the free COM port
are: 19200 bps, 8 data bits, no parity, 1 stop bit and no flow
control. The free COM port must be connected via a special
cable to the RS232 port of the DVD player. This special cable
will also connect the test pin, which is available on the
connector, to ground (i.e. activate test pin).

5.9.2 Code nr. PC interface cable: 3122 785 90017

Activation

Switch the player on and the following text will appear on the
screen of the terminal (program):

The first line indicates that the Diagnostic software has been
activated and contains the version number of the diagnostic;
this is also an indication that the first basic nucleus (nucleus
number 1) has been executed succesfully. The next three lines
are the succesful result of the subsequent basic tests (nuclei 2,
3, 4 and initialisation of Karaoke chip respectively). If not all
these messages appear on the terminal screen, then the
related nucleus found an error. The last line is the prompt
asking to choose for an interface form. If a choice for Menu
Interface has been made, the main menu will appear. For the
layout of the menus, see page 25.
To switch between interfaces, the DVD player needs to be
switched off and on again.
Note1 : The DVDv2B player has no power-ON key, but should
be turned on by connecting the power-cable.
Note2 : The Dram tests are no longer executed because the
player has no DRAM .
Note3 : When the stack is located in the internal memory, the
test with the SRAM doesn't work and will be left out.
Note4 : The karaoke initialisation will also take place if there is
no karaoke-chip in the player.

Usage

A selection can be given by the user by typing the number of
the menu-item chosen at the prompt. Each entry must be
terminated with a . Invalid selections will cause an error
message by the Menu Handler. Example:

Result and output of an activated (and terminated) nucleus will
be sent back to the service terminal. Example:

After the user presses a key, the current menu is rebuilt on
screen.
Pressing < return > at the prompt without any further input at
the terminal will always rebuild the main menu.

Termination

The menu interface is terminated by switching off the DVD
player.

Logical
Interface Description

Physical interface
components

Menu
Interface

Menu-driven
activation of
individual nuclei,
used for Level 2/
Second Line
diagnostic mode.
Users are service or
repair people

Service PC running a
terminal emulation
program, connected to
the RS232 port of the
DVD player Test pin

Command
Line Interface

Used during Level 1
diagnostic mode.
Used to send
commands from the
Control PC into the
DVD hardware.

Control PC, running a
control program (e.g.
Asterix), connected to
RS232 port of the DVD
player Test pin

Script
Interface

Used to execute
Player Test Script
(including reading
the error log) and
Dealer Test Script.

Local keyboard Local
display

S2B interface Used for S2B

communication with
the Basic Engine

Service PC, running a
S2B monitor program,
connected to the
RS232 port of DVD
player Test pin

Download
Interface

Used to download
diagnostic software
into the DVD player

Service PC running a
terminal emulation
program, connected to
the RS232 port of the
DVD player Test pin

DVDv2 Diagnostic Software version 1.0

SDRAM Interconnection test passed
Basic SDRAM test passed
Karaoke init OK

(M)enu, (C)ommand (S)2B-interface or (D)ownload? [M]:@M<-

<main menu>
Select>

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Select >

60
0001 Invalid menu selection ER @
Press RETURN to continue@

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071099

Select > 16
1601 Data line X is not connected to the SDRAM ER @
Press RETURN to continue@

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5.9.3 Command Line Interface

The command line interface is part of level 1 diagnostic mode.
Via a command line interface the execution of Diagnostic
Nuclei can be controlled.

Set-up physical interface components

Hardware required:

• Control PC

• one free COM port on the Control PC

• special cable to connect DVD player to the Control PC
The control PC must use the following port settings for the used
COM port: 19200 bps, 8 data bits, no parity, 1 stop bit and no
flow control. The control PC is connected with a special cable
to the RS232 port of the DVD player. Via the same connection
the test pin will be connected to ground.

Activation

After power on the next text will sent to the control PC

The first line indicates that the Diagnostic software has been
activated and contains the version number; this is also an
indication that the first basic nucleus (nucleus number 1) has
been executed succesfully. The next three lines are the
succesful result of two subsequent basic tests (nuclei 2, 3,
4and karaoke initialisation respectively). If not all these
messages appear on the terminal screen, then the related
nucleus found an error. The fifth line lets the user choose
between the two possible interface forms. The last line is the
prompt ("DD>"). The diagnostic software is now ready to
receive commands.
Note1 : The DVDv2B player has no power-ON key, but should
be turned on by connecting the power-cable.
Note2 : When it is a player without DRAM, the DRAM tests are
left out.

Usage

The commands that can be given are the names or the
numbers of the nuclei. A command must be terminated with a
< return > character from the control PC. When typing
commands, the backspace key can be used to make
corrections.
In case of typing errors in the command, an error message is
returned. Example:

If the command (the nucleus name or number) is recognised,
the nucleus is executed. Result and output of an activated (and
terminated) nucleus will be sent back to the control PC
according to the standard layout as defined in Appendix C.

Example in case the command is correct:

Example in case the result is an error:

Termination

The command line interface is terminated by switching off the
DVD player.

5.9.4 S2B Interface (not for service)

Set-up physical interface components

Hardware needed:

• Control PC

• one free COM port on the Control PC

• special cable to connect DVD player to Control PC

• S2B monitor tool running on the Control PC

Activation

To start the S2B interface, connect the RS232 cable to the
Control PC in the correct manner. Then start the PC, start the
monitor tool and start the DVD player; turn off the monitor tool,
turn on S2B monitor tool. The S2B monitor tool now takes all
communication.
The S2B interface is activated by sending the bit pattern 110x
xxxx with the first character to the DVD player, when the user
is asked to choose an interface type. The command handler
will then activate the S2B pass-through nucleus. The character
sent will be passed to this nucleus without loss.
Note: The DVDv2B player has no power-ON key, but should be
turned on by connecting the power-cable.

Termination

To terminate S2B pass-through mode, switch off the DVD
player.

5.10 Script Interfaces

This interface is used during execution of the Player Script and
the Dealer Script to display output and error messages.
The local display will be used to display the output and the error
messages.

5.10.1 Dealer Script

Set-up physical interface components

Hardware required:

• DVD player
The DVD player is tested stand-alone: no other equipment than
the DVD player is needed.

Activation

The dealer script is activated by pressing OPEN/CLOSE and
PAUSE on the local keyboard of the DVD player
simultaneously during power-on.

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DVDv2 Diagnostic Software version 1.0
SDRAM Interconnection test passed
Basic SDRAM test passed
Karaoke init OK

(M)enu, (C)ommand (S)2B-interface or (D)ownload? [M]:@

C<-

DD>

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DD > CompSdarmWrR
0001 Unknown command ER @
DD>

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DD > CompSdarmWrR
1600 OK @
DD>

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DD > CompSdarmWrR
1601 Address line X not connected to the SDRAM @
DD>

Test instructions mono board DVD-ASD1

GB 20 ASD-15.

Note : The DVDv2B player has no power-ON key, but should
be turned on by connecting the power-cable.

Usage

The test requires no user interaction. A number of nuclei will be
run before a message is returned indicating if there is a failure
in the DVD player.
During the execution of a script, a progress indicator is
displayed on the local display of the DVD player.

The counter at the right side of the display counts down from
the number of nuclei to be run to zero. At zero all nuclei from
the script have been run and the result (PASS/Error) is
displayed on the local display of the DVD player.
When the dealer script has been completed, the results are
displayed in the following manner:

Termination

To turn off the dealer test, the DVD player must be powered
down.

5.10.2 Player Script

Set-up physical interface components

Hardware needed:

• DVD player

• television set, connected to the DVD player

• 6 audio speakers

• an external video source

Activation

To activate the player script, press OPEN, CLOSE and STOP
keys on the local keyboard of the DVD player simultaneously
during power-on.

Usage

The player test requires human interaction to decide whether
nuclei give correct output, e.g. the user needs to confirm the
results of the display test. This needs to be given through the

local keyboard on the DVD player. Which keys can be used for
this purpose is described with each test.
Module test (with user interaction)
During the first phase of the dealer test, the three main modules
(Digital PWB, Display PWB and Basic Engine) are tested;
some interaction from the user is required.

1. Testing the Display PWB
This involves testing the local display and keyboard, but also
testing the remote control and the leds.

The Display Test

During the display test, different patterns will be shown on the
local display of the DVD player. The user needs to step through
these patterns using the PLAY key on the local keyboard. If any
of the displayed patterns is incorrect, the display test has failed,
and also the player test has failed.
The test patterns on display will be repeated in a loop (stepped
through using PLAY) until the user presses NEXT on the local
keyboard to proceed to the next test.

The LED Test

Next is the LED test; the LEDs on the DVD player are lit.
Pressing PLAY will indicate that all LEDs are operational. To
indicate that a LED did not light up, the user must press the
PAUSE key. Pressing PLAY or PAUSE will proceed the user
into the next test.

The Keyboard Test

During the keyboard test, the user needs to press all the keys
on the local keyboard one by one. On the local display each key
is represented by its scancode (a hexadecimal 2-digit code
identifying the key to the DVD player).
Pressing a key will show its representing code on the local
display of the DVD player: the first hexadecimal digit identifies
the key pressed, the second indicates how many times this
particular key was detected. In case the key is pressed more
than once, the scancode is displayed as many times, with the
second digit of its code increased each time. The display of
scancodes scrolls from right to left, with the most recent
scancode at the right. The following example gives a possible
layout of the local display during the display/remote control
test:

To terminate the keyboard test, press the NEXT key on the
local keyboard of the DVD player and keep it pressed for 1
(one) full second. The keyboard test will terminate with a
message on the local display. In case the keyboard test was
successful, the message is:

In case the keyboard test was not successful, the message will
be:

123456 789 101112131415+

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123456789101112131415+

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Test instructions mono board DVD-ASD1

GB 21ASD-1 5.

If the "tbFAIL"-message is displayed, the player test has failed.
This is the end of the player test: turn off the DVD player, or
press NEXT on the local keyboard of the DVD player to
proceed to the next test.

The remote control test

For the remote control test, the user must press a key (any key)
on the DVD's remote control. The display at the start of the test
looks as follows:

When a remote control code has been received, its scancode
is displayed as follows:

The NEXT key can be pressed to exit this test.
However, if the user requires to test all keys on the remote
control, (s)he can continue to press keys and these will all be
displayed on the local display. With a code-table at hand this
test can be used to test the full functionality of the DVD's
remote control.
When the user has pressed NEXT on the local keyboard (NOT
on the remote control!), the result of the remote control test is
shown on the local display as follows:

in case of succes;

if the test fails.
Pressing NEXT on the local keyboard again will proceed to the
next test.

2. Testing the Monoboard
The picture tests involve putting a predefined picture on the
connected television set, and asking the user for confirmation.
When the picture has been put on screen, the local display
asks for confirmation by the user as follows:

If the user presses PLAY, he confirms the test; pressing
PAUSE will indicate a fault in the test. At this time, the player
test had failed and the DVD player can be switched off, or the
user can proceed to the next test by pressing NEXT on the local
keyboard of the DVD player.
Pressing the NEXT key on the local keyboard will start the next
picture test (Colour set-up functional test).
When the picture tests are finished, the sound tests are run.
A predefined sound will be generated, and again the user is
asked to confirm this. The local display looks as follows:

Pressing PLAY confirms the test, PAUSE indicates test failure.
If the test is faulty, the player test failed and the DVD player can
be shut off. Subsequent sound tests will be numbered in
ascending order.
Pressing NEXT on the local keyboard of the DVD player will
take the user into the next test.

3. Testing the Basic Engine
Most tests on the basic engine require user interaction.
When the basic engine tests are started, the version of the
basic engine which is present in the DVD player is shown on
the local display, as follows:

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

⋅

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Test instructions mono board DVD-ASD1

GB 22 ASD-15.

The version number is displayed in decimal representation (the
underscore replacing the dot). When the user presses NEXT
on the local keyboard, the tests on the basic engine are started.
First, the tray operation is tested. The user can move the tray
in and out by pressing the PLAY or PAUSE key on the local
keyboard (both keys have essentially the same function). The
results need to be checked visually by the user, the software
cannot detect any faults. The local display looks as follows:

To indicate this is a test of which the result is to be checked by
the user, the first word on the local display is "do".
Except for testing the tray, this test is also meant to give the
user the opportunity to put a disc into the DVD player for
subsequent basic engine tests. Some of the following tests
need a disc in the DVD player to operate properly. Always put
a disc into the DVD player during this test! At the end of the
basic engine tests there is opportunity to remove it (before the
looptests start). Pressing the NEXT key on the local keyboard
proceeds to the next test.
Second test is the sledge test; the user is asked to move the
sledge by using the keys PLAY and PAUSE on the local
keyboard (both keys have essentially the same function). This
test needs to be checked visually by the user; the software
cannot detect any faults. The local display during this test looks
as follows:

After pressing NEXT on the local keyboard the discmotor is
tested; the local display looks as follows:

The user is required to listen if the disc motor is running; this
must be confirmed by pressing PLAY on the local keyboard.
The PAUSE key is used to indicate the discmotor does not run.
Pressing NEXT on the local keyboard starts the focus test. The
local display looks as follows during this test:

By pressing PLAY the user confirms successful focussing by
the basic engine; pressing PAUSE indicates a fault in the focus
function.
Pressing NEXT on the local keyboard starts the radial function;
the local display looks as follows:

Again, PLAY confirms the result, PAUSE indicates an error.
After pressing NEXT on the local keyboard, the grooves/jump
test is started. As this is also a test that cannot be checked by
the software, the user needs to perform a visual test. The local
display looks as follows:

By pressing PLAY the next grooves/jump position is taken;
pressing PAUSE will go to the previous grooves/jump position.
Switching through the different positions is done in a cyclic
manner.
Press the NEXT key on the local keyboard to proceed to the
last basic engine test: again, the tray is tested. This has been
done at the beginning of the basic engine test already, the
repeat is only meant to enable the user to remove the disc in
the tray before proceeding. The local display will look as
follows:

Press PLAY or PAUSE to operate the tray; remove the disc in
the tray.
The tray will be closed automatically (if needed) before
proceeding to the next tests (by pressing NEXT on the local
keyboard).
Read Error Log

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Test instructions mono board DVD-ASD1

GB 23ASD-1 5.

The contents of the error log will be displayed on the local
display, as follows :

Note: This is an example only; no actual errorcode is intended

The first two characters on the local display ("EL") indicate that
the read-out mode of the error log is activated. After the hyphen
8 hexadecimal digits (one faultcode) are displayed. Below the
row of 7-segment displays the highlighted number indicates the
number of the faultcode being displayed. (Not for DVDv2B) The
highest number indicates the oldest faultcode.
If, in the future, more than 15 faultcodes need to be displayed,
the "+" character can be used to indicate the display of a
faultcode in the range 16 - 30.
To step through the different fault codes, the PLAY (next) and
PAUSE (previous) key on the local keyboard can be used. The
display of faultcodes is cyclic. If the error log does not contain
any fault codes, all displayed error codes will be "000 00000".
To switch off the display of the error log, the NEXT key must be
pressed on the local keyboard.
Read Error Bits
The error bits are used to indicate that an error occurred once
or more times; if that is the case the bit representing the error
is set. To read out this field of error bits, the local display is
used. Only the numbers of the errors where the bit is set will be
displayed on the local display. The layout of the local display is
(globally) as follows2:

The number of the set bits is displayed in a cyclic manner.
Scrolling through the set error bits can be done with the PLAY
key for 'next' and PAUSE key for 'previous'. Pressing the PLAY
key at the last bit number will display the first bit number again,
pressing the PAUSE button at the first bit number will display
the last bit number in the list. The representation of bit numbers
is decimal.
If no error bits are set, the number on the right side of the
display will be "00"
Module Looptest
The module looptest is an infinite loop in which a number of
nuclei are executed over and over again. The nuclei run are the
same as in the dealer test; user interaction is not required.
During this looptest, the display looks as follows3:

The leftmost three digits indicate which of the DVD player's
modules is faulty; the explanation is in the following table:

After the hyphen the (decimal) number indicates the number of
times the looptest was performed.
The right side of the display shows an error code DNER (in
decimal representation), which is built from a nucleus number
(DN) and an error number (ER). This code indicates the last
nucleus that returned an error code. For explanation of this
DNER code, see document [SDD_DN].
Pressing NEXT on the local keyboard of the DVD player will
exit this loop and show the end result of the player test.
End result of the player test is equal to the last display shown
above: it shows which module is faulty and which nucleus
caused the last error, as well as how many loops were
performed.

Termination

To terminate the player test, switch off the DVD player.

5.11 Download Interfaces (not for service)

The download interface enables the user to download another
version of diagnostic software into the RAM of the DVD player.
The downloaded software will overrule the software which is
placed in the DVD player's ROM; running the original
diagnostic software is disabled until the DVD player is switched
off and on again.
For download of diagnostic software, the RS232 port may be
used.

5.11.1 Set-up physical interface components

Hardware required:

• Service PC

• one free COM port on the Service PC

• special cable to connect DVD player to Service PC

The service PC must have a terminal emulation program (e.g.
OS2 WarpTerminal or Procomm in Windows95) installed and
must have a free COM port (e.g. COM1). Activate the terminal
emulation program and check that the port settings for the free
COM port are: 19200 bps, 8 data bits, no parity, 1 stop bit and
no flow control.
The free COM port must be connected via a special cable to the
RS232 port of the DVD player. This special cable will also
connect the test pin, which is available on the connector, to
ground (i.e. activate test pin).

5.11.2 Activation

Switch the DVD player on and the following text will appear on
the screen of the terminal (emulation program):

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Displayed
Value

Indication for each module

Loader Mono-

board

Display

PCB
000 ok ok ok
001 ok ok faulty
010 ok faulty ok
011 ok faulty faulty
100 faulty ok ok
101 faulty ok faulty
110 faulty faulty ok
111 faulty faulty faulty

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Test instructions mono board DVD-ASD1

GB 24 ASD-15.

The DVD player is now in a wait-mode, awaiting the download
of a file in Motorola S3-format.
Enter the download command (which will be an "upload" from
the terminal!) at the terminal:

Progress seen by the diagnostic software is indicated by
displaying the character "*" on screen repeatedly; if the
download software encounters an error, the end of the
downloaded file will be awaited and instead of the "*"­character, the "+"- character will be used to indicate
(erroneous) progress.
When download is finished, the following message will come
from the DVD player:

When the user then presses a key, the DVD player will report

and start to run the downloaded software.
Note1 : The DVDv2B player has no power-ON key, but should
be turned on by connecting the power-cable.
Note2 : For players without DRAM, the DRAM-tests will be
scipped.

5.11.3 Usage

The usage of the downloaded software depends on the
contents of that software and cannot be described here.

5.11.4 Termination (not for service)

To exit the download-interface and remove the downloaded
software from the DVD player, switch off the DVD player.

External Scripts

A script is a sequence of nucleus calls. Internal scripts (e.g.
scripts built into the diagnostic software itself) are in the form of
a C-language module. However it cannot be expected from a
customer to write C-modules in order to create new scripts.

The scripts that can be made externally are therefor in one of
the following two forms:

1. A Procomm or Telex script Procomm or Telex can be used
to write diagnostic scripts. The script language of both
communication packages contains possibilities for
construction of loops and branches in the scripts.
Commands then going over the line will be exactly the
same as described in the chapter "Command Interface".
The diagnostic software (the engine) will receive normal
RS232 commands and processes these as defined,
sending results of these nuclei back over the RS232 line.
In the Terminal the Procomm or Telex script determines
which command sequence is followed

2. An Asterix-script Asterix-scripts are C-programs in which
commands are sent to the diagnostic software (the
engine). The construction of branches and loops is again
located in the remote machine, i.e. the Asterix machine.
Commands going over the line will be exactly the same as
described in the chapter "Command Interface". The
diagnostic software (the engine) will receive normal RS232
commands and processes these as defined, sending
results of the called nuclei back over the RS232 line. In the
Asterix PC the C-program determines which command
sequence is followed.

Layout of menus and submenus for the Service Terminal

NOTE: a symbol "-->" in the next menu layouts indicates that
that specific menu choice will invoke the display of a submenu.
This symbol will also be used in the implementation of the
menus (i.e. the "-->" will also appear in the user interface).

Main Menu

MAIN MENU

1. Audio -->

2. Basic Engine -->

3. Display PWB -->

4. Processor & Peripherals -->

5. Karaoke -->

6. Log -->

7. Miscellaneous -->

8. Video -->

First Level Submenus

AUDIO MENU

1. Deemphasis -->

2. Mute -->

3. PinkNoise -->

4. SineWave -->

BASIC ENGINE MENU

1. Disc Motor -->

2. Focus -->

3. Grooves -->

4. Radial -->

5. Reset [44]

6. Sledge -->

7. Tray -->

8. Version [37]

DISPLAY PWB MENU

1. Display [30]

2. Keyboard [27]

3. LEDs [29]

4. Remote control [28]

5. Version [28]

LOG MENU

1. Read last errors [31]

2. Read error bits [32]

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DVDv2 Diagnostic Software version 1.0
SDRAM Interconnection test passed
Basic SDRAM test passed
Karaoke init OK

(M)enu, (C)ommand (S)2B-interface or (D)ownload? [M]:@

D<-

DVD diagnostic software awaiting download...@

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upload <file>

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Press return to start downloaded program...

Download succesful

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DVD Diagnostic Software version X.X

Test instructions mono board DVD-ASD1

GB 25ASD-1 5.

3. Reset [33]

PROCESSOR AND PERIPHERALS MENU

1. Clock -->

2. DRAM Write/Read [9]

3. Flash -->

4. I2C -->

5. S2B -->

6. SDRAM Write/Read [16]

MISCELLANEOUS MENU

1. NVRam Utils -->

2. PalNtsc Line --> (Not for DVDv2B)

3. 2B Utils -->

4. Statistics Info -->

5. Read Application Version [46]

VIDEO MENU

1. Colourbar -->

2. Scart -->

KARAOKE MENU

1. Karaoke Mode Off [48a]

2. Karaoke Mode On [48b]

3. KaraokeMicInput [49]

4. KaraokeKey On [50a]

5. KaraokeKey Off [50b]

6. Karaoke Echo On [51a]

7. Karaoke Echo Off [51b]

Second level submenus

DEEMPHASIS MENU

1. Deemphasis 0 On [18a]

2. Deemphasis 0 Off [18b]

3. Deemphasis 1 On [18c]

4. Deemphasis 1 Off [18d]

for DVDv2B:

1. Deemphasis On [18a]

2. Deemphasis Off [18b]

3. Deemp 0 Tristate On [18e]

4. Deemp 0 Tristate Off [18f]

5. Deemp 1 Tristate On [18g]

6. Deemp 1 Tristate Off [18h]

MUTE MENU

1. Mute On [19a]

2. Mute Off [19b]

PINKNOISE MENU

1. Pinknoise On [20a]

2. Pinknoise Off [20b]

SINEWAVE MENU

1. Audio Sine On [21a]

2. Audio Burst On [21b]

DISC MOTOR MENU

1. Disc Motor On [39a]

2. Disc Motor Off [39b]

FOCUS MENU

1. Focus On [38a]

2. Focus Off [38b]

GROOVES MENU

1. Jump Grooves to Inside [42a]

2. Jump Grooves to Middle [42b]

3. Jump Grooves to Outside [42c]

RADIAL MENU

1. Radial Control On [40a]

2. Radial Control Off [40b]

SLEDGE MENU

1. Sledge Inwards [41a]

2. Sledge Outwards [41b]

TRAY MENU

1. Open Tray [43b]

2. Close Tray [43a]

LASER MENU

1. Laser Cd On[58a]

2. Laser Cd Off[58b]

3. Laser DVD On[58c]

4. Laser DVD Off[58d]

UCLOCK MENU

1.µClock A_CLK in CDDA Mode [7a]

2.µClock A_CLK in DVD Mode [7b]

FLASH MENU

1. Checksum FLASH [6]

2. Flash write access [10]

I2C MENU

1. I2C NVRAM Access [11]

2. I2C Display PWB [12]

S2B MENU

1. S2B Echo [13]

2. S2B Pass-through [14]

NVRAM MENU

1. NVRAM Config [34]

2. NVRAM reset [35]

3. NVRAM Mod [36]

4. NVRAM write/read [15]

PAL/NTSC MENU (Not for DVDv2B)

1. PalNtscHi [45a]

2. PalNtscLo [45b]

2B UTILS MENU

1. I2C Scart Check [54]

2. Scart to DVD [55a]

3. Scart Pass through [55b]

4. VideoColSetupI2C [52]

5. VideoColSetupHi [53a]

6. VideoColSetupLo [53b]

VIDEO COLOURBAR MENU

1. Colourbar DENC On [23a]

2. Colourbar DENC Off [23b]

SCART MENU

1. Scart Low [25a]

2. Scart Medium [25b]

3. Scart High [25c]

STATISTICS INFO MENU

1. Total Nr of Times Tray Open [47a]

2. Toat Time Power On [47b]

3. Total Play-time CDDA & VCD [47c]

4. Total Play-time DVD [47d]

Test instructions mono board DVD-ASD1

GB 26 ASD-15.

Screen layout with menus

When menus are used, no specific screen layout can be given:
menu information will not be in a special format, except for the
layout as mentioned in the previous paragraphs.
A typical menu session can look as follows:

---------------< top of screen >------------------------------------------­DVDv2 Diagnostic Software version 1.0
SDRAM Interconnection test passed
Basic SDRAM test passed
Karaoke init OK
(M)enu, (C)ommand, (S)2B-interface or (D)ownload? [M]:@
M <--

MAIN MENU

1. Audio -->

2. Basic Engine -->

3. Display PWB -->

4. Processor & Peripherals -->

5. Karaoke -->

6. Log -->

7. Miscellaneous -->

8. Video -->
Select> 4 <--

PROCESSOR AND PERIPHERALS MENU

1. Clock -->

2. DRAM Write/Read [9]

3. Flash -->

4. I2C -->

5. S2B -->

6. SDRAM Write/Read [16]
Select> 6 <--

------------------< bottom of screen >---------------------------­Depending on the height of the screen, the text will start
scrolling off the top of the screen.

Layout of Results diagnostic nuclei on control/service PC

Results returned from a Diagnostic Nucleus to the control/
service PC will have a maximum length of 300 characters and
are terminated by a CR character (included in the string length)
The result has the following layout
< number >< string > [OK l ER] @< CR >
The use of the "@" enables the Asterix system on the Control
PC to parse the output string of each nucleus into a database.
< number > is a 4-digit decimal number padded with leading
zeros if its value is less than 4 digits. The first two digits identify
the generating nucleus (or goup of nuclei), the latter two digits
indicate the error number.
< string > is a text string containing information about the result
of the Diagnostic Nucleus.
< number > and < string > are defined in [SDD_DN] in the
output sections of each Nucleus.
Examples:

CL96532111_031.eps

071099

1. 0001 Unknown command ER @

2. 3100 OK @

3. 0901 Data line X is not connected to the DRAM ER @

Test instructions mono board DVD-ASD1

GB 27ASD-1 5.

5.12 Diagnostic Nuclei

Each nucleus contains an atomic and independent diagnostic
test, testing a functional part of the DVD player hardware on
component level. Each Nucleus returns a result message to its
caller. Some tests (e.g. generating a colour bar) can only return
an "OK" result. Internal communication will be done via a
uniform interface between the diagnostic Engine, Scripts and
the Diagnostic Nuclei.
The diagnostic Engine can only operate if a certain (minimal)
set of hardware is functioning properly. To test this set of
hardware, a set of basic diagnostic nuclei is embedded in the
DVD player. Each basic diagnostic nucleus will only test that
part of the hardware which is required for execution of the
diagnostic Engine, e.g. a RAM test will only test that part of
RAM that is used by the diagnostic engine. After the Diagnostic
Engine is operational it is possible to do a full RAM diagnostic.
All basic diagnostic nuclei start with prefix 'Basic'.
In the overview each Diagnostic Nucleus consists of a
reference number, a reference name and remarks. Reference
number and name are coupled and one of them is enough for
unique identification. The reference number can be used to find
the description of the Diagnostic Nucleus in paragraph Error!
Reference source not found..# where # is the reference
number.

5.12.1 Basic Diagnostic Nuclei

5.12.2 Processor and Peripherals

5.12.3 Components

5.12.4 Audio

5.12.5 Video

Ref. Reference Name Remark

1 BasicSpAcc Serial port Access test/

initialisation

2a BasicInterconDram Data and address bus

Interconnection (only for
DVDv2A)

2b BasicInterconSdram Data and address bus

interconnection

3 BasicDramWrR DRAM Write Read (only

for DVDv2A)
4 BasicSdramWrR SDRAM Write Read
5 BasicSramWrR SRAM Write Read

Ref. Reference Name Remark

6 PapChksFl Checksum FLASH
7a PapUclkAclkCdda uClock A_CLK in CD-DA

mode
7b PapUclkAclkDvd uClock A_CLK in DVD

mode
9 PapDramWrR DRAM Write Read (only

for DVDv2A)
10 PapFlashWrAcc FLASH Write Access
11 PapI2cNvram I2C NVRAM access
12 PapI2cDisp I2C Display PWB
13 PapS2bEcho S2B Echo
14 PapS2bPass S2B Pass-through
15 PapNvramWrR NVRAM Write Read

Ref. # Reference Name Remark

16 CompSdramWrR SDRAM Write Read

Ref. Reference Name Remark

17 AudioSig Audio Signature (Optional)
18a AudioDeemp0On Audio De-emphasis 0 On

AudioDeempOn
(DVD2B)

Audio De-emphasis On
(DVDv2B)

18b AudioDeemp0Off Audio De-emphasis 0 Off

AudioDeempOff
(DVD2B)

Audio De-emphasis Off
(DVDv2B)

18c AudioDeemp1On Audio De-emphasis 1 On

(Not for DVDv2B)

18d AudioDeemp1Off Audio De-emphasis 1 Off

(Not for DVDv2B)

18e AudioDeemp0Tristat

eOn

Audio De-emphasis 0 in
tristate/bidirectional mode
(DVDv2B)

18f AudioDeemp0Tristat

eOff

Audio De-emphasis 0
back in output mode (Off)
(DVDv2B)

18g AudioDeemp1Tristat

eOn

Audio De-emphasis 1 in
tristate/bidirectional mode
(DVDv2B)

18h AudioDeemp1Tristat

eOff

Audio De-emphasis 1
back in output mode (Off)

(DVDv2B)
19a AudioMuteOn Audio Mute On
19b AudioMuteOff Audio Mute Off
20a AudioPinkNoiseOn Audio Pinknoise On
20b AudioPinkNoiseOff Audio Pinknoise Off
21a AudioSineOn Audio Sine signal On/Off
21b AudioSineBurst Audio Sine signal Burst
56a AudioDeemp0On PIO-pins as used in 2A for

Deemphasis
56b AudioDeemp0Off PIO-pins as used in 2A for

Deemphasis
56c AudioDeemp1On PIO-pins as used in 2A for

Deemphasis
56d AudioDeemp1Off PIO-pins as used in 2A for

Deemphasis

Ref. Reference Name Remark

23a VideoColDencOn Colourbar DENC On
23b VideoColDencOff Colourbar DENC Off
25a VideoScartLo Scart Low
25b VideoScartMi Scart Medium
25c VideoScartHi Scart High
52 VideoColSetupCom Colour Setup

Communication
53a VideoColSetupHi Colour Setup High
53b VideoColSetupLo Colour Setup Low
54 VideoScartSwCommScart Switch

communication
55a VideoScartSwDvd Scart Switch Dvd
55b VideoScartSwPass Scart Switch Pass-through

Test instructions mono board DVD-ASD1

GB 28 ASD-15.

5.12.6 DisplayPWB (slave processor)

5.12.7 Log (error logging in NVRAM)

5.12.8 Miscellaneous

5.12.9 Basic Engine

5.12.10 Karaoke

Note: A new Compair version for repair of the MONO boards
will be developed.

57a VideoScartPinLo PIO-pins as used in 2A for

Scart-switching

57b VideoScartPinMi PIO-pins as used in 2A for

Scart-switching

57c VideoScartPinHi PIO-pins as used in 2A for

Scart-switching

Ref. Reference Name Remark

26 DispVer Version number
27 DispKeyb Keyboard
28 DispRc Remote Control
29 DispLed LEDs
30 DispDisplay Display

Ref. Reference Name Remark

31 LogReadErr Read last Errors
32 LogReadBits Read errors Bits
33 LogReset Reset

Ref. Reference Name Remark

34 MiscReadConfig Read Configuration

area from NVRAM
35 MiscNvramReset NVRAM Reset
36 MiscNvramMod Modify NVRAM

contents
45a MiscPalNtscHi Check if PAL/NTSC

line is high (Not for

DVDv2B)
45b MiscPalNtscLo Check if PAL/NTSC

line is low (Not for

DVDv2B)
46 MiscApplVer Read version of

application software
47a MiscTrayOpenNr Read the number of

times the tray opened
47b MiscPowerOnTime Read the total time the

player's power has

been on
47c MiscPlayTimeCddaVcd Read the Playtime of

CDDA and VCD discs
47d MiscPlayTimeDvd Read the Playtime of

DVD discs

Ref. Reference Name Remark

37 BeVer Version number
38a BeFocusOn Focus On
38b BeFocusOff Focus Off
39a BeDiscmotorOn Discmotor On
39b BeDiscmotorOff Discmotor Off

Ref. Reference Name Remark

40a BeRadialOn Radial control On
40b BeRadialOff Radial control Off
41a BeSledgeIn Sledge Inwards
41b BeSledgeOut Sledge Outwards
42a BeGroovesIn jump Grooves to Inside
42b BeGroovesMid jump Grooves to Middle
42c BeGroovesOut jump Grooves to Outside
43a BeTrayIn Tray In
43b BeTrayOut Tray Out
44 BeReset Reset Basic Engine
58a LaserCdOn CD Laser on
58b LaserCdOff CD Laser off
58c LaserDvdOn DVD Laser on
58d LaserDvdOff DVD Laser off

Ref. Reference Name Remark

48a KaraokeModeOff Switch Karaoke mode off
48b KaraokeModeOn Switch Karaoke mode on
49 KaraokeMicInput Check path from the

microphone input to audio
output

50a KaraokeKeyOn Set Karaoke Key to the

maximum level (1200 cent)

50b KaraokeKeyOff Set Karaoke Key to flat

octave (0 cent)
51a KaraokeEchoOn Set Echo Control fuction on
51b KaraokeEchoOff Set Echo Control function off

Ref. Reference Name Remark

Block diagrams

29ASD-1 6.

6. Block diagrams

Servo

DISK MOTOR

SLEDGE MOTOR

TRAY MOTOR

6 MHz

8.46 MHz

LM833D

uP (8051 CORE)

ADC

7207

SAA7399

MACE2

SERVO

B_V4
B_SYNC
B_FLAG
B_DATA
B_BCLK
B_WCLK

6

SAA7335HL/E/M2

HD61

DECODER

HF-IN

3

7304

BA6856FP

MOTOR-IC

HALL-FEEDBACK

DRIVE

MOTO-IN

TACHO-OUT

LOADER

CDM

OPU

DVD-LASER

CD-LASER

RADIAL

FOCUS

M

HALL

M

HALL

M

END-SWITCH

4-WIRES

FLEX 24P

FLEX 11P

FLEX 8P

PCS-PRE-AMPL

DRIVERS

7104

7103

4

2

4

4

2

4

+5 GND

PCS

PHI-INPUT

REF

BA5938FM

SERVO OUTPUTS

TRAY-SWITCH

SLEDGE

RADIAL

FOCUS

TRAY1
TRAY2

5

2

2

CONTROL
LINES

1104

1106

1301

1100

1

1

7311

CONTROL BUS

DATA/ADDRESS BUS

AD[0:7]AD[0:7]

A[8:16]

A[0:16]

A[0:7]

AD[0:7]

AD[0:7]

PSENN

FLASH ROM

ADRESS LATCH

7202

7201

MEMORY

132K

S-RAM

DATA

ADDRESS

CONTROL

8

15

1

4268_136
2012

Laser#1

Laser#2

Diode

Amplifiers

Processing

DPD

Land/Groove
Swap

Dual Laser

Supply

Serial

I/Face

Push Pull

3 Beam
Tracking

Var Gain

Servo

Signals

DVD

CD

D1-D6

MUX

CALF_MACE

O_CENTRAL

Land

V & I references

Header

Offset

Mute

compensations

MUX

SILD

SICL

SIDA

4

6

4

6

TO STi5505 ON DIAGRAM 5

DVDALAS2+

TZA1033

RFo

STB_DALAS

ASD1 BOARD SERVO PART

7310

7102

CY7C199-15C

AM29F002

74HCT573D

BLOCKDIAGRAM DIGITAL PART

TXD_BE
RXT_BE
CFR
SUR

4

TO/FROM STi5505 ON DIAGRAM 5

S2B

I2S

HPSW

EQUALIZER

7110-7111

7100-7106-7101

RSTN

POR

1

3

2

t

CL06532065_036.eps

180500

30ASD-1 6.

Block diagrams

Didital

7504

ST24E32M6

7505

7612-7618

7611

SERVICE

RESETN

-8Vstby

7600

7503

STi5505

SERVICE

4

I/O

OSD

DECODER

ENCODER

CONTROLLER

I2CSDRAM CONTROLLER

PROGRAMMABLE

VIDEO

AUDIO

MPEG DECODER

DEMULTIPLEXER

MEMORY INTERFACE

HOST

ST20

UART UART

INTERFACE

FRONT END

16Mb

B_SYNC

B_FLAG

B_BCLK

B_DATA

B_WCLK

B_V4

1501

STB_CONT

AM29LV160BT

7401

MK2742

7616

SEL_ACLK

CTS_SER

RTS_SER

RXD_SER

TXD_SER

4

SUR

CFR

RXD_BE

TXD_BE

S2B

4

I2S

6

1602

1600

TO/FROM
DISPLAY

BOARD

A/V-MUX

INTERFACE

SERIAL

SUPPLY

POWER

STB_CONT

+6Vstby

+5Vstby

+5V

+3V3

SYNTHESIZER

FLASH

CLOCK

27 MHz

1603

MUTE

MUTE_AV

SCART

0_6_12V

DEEM[0:1]

P50

6

-5V

+5V

R/C
G
B/CVBS
CVBS/Y

TO/FROM

CONN.

CONN.

CONN.

CONN.

0/6/12V

SERVICE

+12Vstby

7608,7609,7610

7604, 7607

AUDIO

VIDEO

SUBPICTURE

3V3

5V

VIDEO

FILTER

BUFFER

2

4

SCART[0:1]

MUTE

SCLK

PCM_OUT0

PCM_CLK

LRCLK
SPDIF_OUT

R_OUT
G_OUT
B_OUT
C_OUT

CVBS_OUT

Y_OUT

2

4

3

1604

CONN.

BOARD

A/V-MUX

TO

2

OPTION

+12Vstby

+3V3
+6Vstby

-8Vstby

HSYNC

PCMout1
PCMout2

Y - C

EEPROM

DIG_OUT

BCLK
DATA

ACLK

WCLK

SDA
SCLK

2

2

2

2

SDA
SCLK

SCLK

SDA

7405

SDRAM

7404

MT48LC1M16A1TG -7S

16Mb

SDRAM

16Mb

SDRAM INTERFACE

SYSTEM DATA BUS

SYSTEM ADDRESS BUS

SYSTEM CONTROL BUS

CVBS
RGB
S-VHS

DIG. OUT

PCM (3X)

I2C

4268_136
2012

TO /FROM
MACE2
(DIAGRAM 2)

FROM
HD61 DECODER
(DIAGRAM 3)

ASD1 BOARD DIGITAL PART

P50

PCM__CLK

MT48LC1M16A1TG-7S

RSTN

5

4

6

CL06532065_037.eps

180500

Electrical diagrams and PWB’s

31ASD-1 7.

7. Electrical diagrams and PWB’s

SERVO DALAS

X2

+

+

+

+

-

X2

X2

MT

X2

X2

X2

X2

X2

MUTE

VOLTAGE
CONTROL

LOGIC
TRAY

-

-

-

MUX

VAR GAIN

LAND/

GROOVE

SWAP

MUTE

LAND

MUX

DPD

PUSH PULL

OFFSET

COMPENS.

3 BEAM

TRACKING

DIODE

AMPLIFIERS

PROCESSING

HEADER

3115 B12

F131 C33149 E8

12 13

F159 E8
F160 E2

F021 F7

F119 B9

3119 B7

F036 E9

2143 B1

2116 E4

9

3148 G9

F154 E2

F180 G4
F181 G1

F152 D6

3129 C5

3191 B9
3192 B12

234

3135 D5

3180 I2

F117 B3

TO / FROM LOADER

3151 E3

F162 E4
F163 H10

3183 F10
3184 I6
3185 I5

F120 B12
F121 B2

F128 C2
F129 C5
F130 C1

3178 I5

F013 I23101 A6

3125 C4

A

3188 A8

3

3144 E1

5

3146 E8
3147 E8

F183 G4

F118 B9

F197 G11

F022 G12
F023 H5
F024 H6
F035 E9

E

F167 F4

3126 C4

3181 I8

3128 C2

3138 G9

3130 C12
3131 C13

2129 G8

F147 D2

F039 E11

7106 A7

F177 G1
F178 G7

F155 E7
F156 E8

F017 E5

2130 H2
2131 H3

3143 G9

3136 D6

3145 E7

3197 C9

3137 D6

F116 A2

F112 A6

F198 G12
F199 I7

F164 F4
F165 F7
F166 F8

7104-B H2

F111 A2

F169 F8

3182 F10

F171 F3

3139 E4
3140 E5

3193 C13
3194 H8
3195 I8

F192 H2

F101 A10

2103 A5
2104 A6
2105 A7

F189 G8
F190 H1

2100 A9

3150 E3

TO / FROM LOADERTO LOADER

2133 H4
2134 H3

3198 D10

3120 F12

2138 H6

F014 B4
F015 E4
F016 F4

3100 A5

12 13

F144 D2

3113 B4

7114 E10

2118 G9
2119 G10

3141 E2

2107 B6

3142 E5

2113 D8
2114 D7

7110 C4
7111 C5
7112 E10

F135 C1

2108 B6

F179 I9

F132 C4
F133 C11

F153 E2

3122 B12
3123 B5
3124 B12

3179 E11

3187 I2

3127 C12

3189 A3

7104-A G2

B

F168 F7

D

F170 F2

F

F109 A7

3177 H8

3132 D12
3133 D13
3134 D7

F143 D2

4

2115 D5

67

3171 G3
3172 G2

7113 E10

F110 A1

1

2106 B3

7115 D11

F107 A4

8

78

2135 H4
2136 H5
2137 G12

F157 G10
F158 E7

F011 I2

3199 E9

F037 E10

7101 A8

F150 E1

3173 F12

3112 A6

F186 G4

3114 B12

F184 G1
F185 G4

F122 B5
F123 B11
F124 B2

1105 D8
1106 G1

3190 A4

2127 I10

3166 G8

1

3168 I9

F137 C12

2110 B3

F139 C7

F018 E5

91011

I

F182 G2

F019 D6
F020 D6

3164 F3

3165 I9

F172 H9

F038 E11

F173 F4

3174 G12
3175 H6

F

3121 B12

F127 B2

3116 B4
3117 B5

F161 E4

F125 B6
F126 B9

F191 H7

2102 A3

F194 I5
F195 I5

3153 H9
3154 F3

7105-A G12
7105-B G10

2141 I2

2101 A10

2117 E6

3102 A5
3103 A4

G

H

2144 B2
2145 B2

3118 B8

5

3167 G3 F149 E2

F148 D2

1100-1 A1
1100-2 A1

3155 F8

F187 G1
F188 G4

F145 D7
F146 D8

2121 E2
2122 F4

A

7109 A9

2128 G8

3152 E8

2132 H3

6

F141 D2
F142 D12

2142 F11

3176 H8

F136 C2

3104 A7

F196 I5

E

F113 A6
F114 A8
F115 B12

7103 A10

2140 I6

D

F175 F8

2120 E2

2139 I8

10 11

1100-3 A1

G

H

I

2111 B11

2109 B3

C

F174 F8

3170 G3

1100-4 A1
1104 B1

F193 H6

3186 I7

2123 H10
2124 F7
2125 G3
2126 G2

3157 F8

F176 G7

F102 A6
F103 A4
F104 A7
F105 A1
F106 A5

F134 C4

OPTION

OPTION

OPTION

3156 F3

3106 A7
3107 A12

2

F012 I2

3159 F7

F151 E5

3161 F8
3162 F3

B

C

7116 E12

3105 A2

3158 H9

3108 A12

3160 F3

3110 A8
3111 A5

3196 B9

2112 C4

F108 A12

F138 C2

7100 A5

F140 C2

7102 E4

3169 G3

3163 F1

OPTION

OPTION

OPTION

OPTION 1

OPTION

OPTION

OPTION

OPTION

OPTION

OPTION

F036

F158

BC847B

7112

F037

3104 123 4268.4

PB 4268 ASD1

MONO-BOARD

+5V

2118

22n

3151

F118

F199

100R

3198

2135

15p

15K

3176

470R

F137

47R

3136

68K

3177

3199

3133

2R2

3171

10K

3196

12K

3152

100R

3

4

5

6

7

8

52271-XX90

1106

1

2

+5V

F144

7100
BFS20

+5A3

1R

3139

47R

3112

10K

3147

1100-2

2

F103

F145

220p

2143

F189

2.5V

100R

3183

2100
100n

+5V

F106

F129

3

2

220p

2145

F101

BFS20

7106

1

120R

3165

F120

F151

F149

10K

3105

220R

3179

47R

3140

3120
1K

F173

+5V

F015

3192

F116

10n

2142

150R

3111

1K

3182

F196

F178

F022

+5D

100n

4n7

2104

2120

2128

180p

+5A2

4R7

3141

2139

100n

3160

100R

F122

3173

F181

2111
100n

100K

F115

2R2

3131

39K

3166

+5V

F179

330R

3168

F192

F174

5

6

7

8

4

F177

F155

7105-B
MC34072

+5V

+5V

2123

100n

F160

F023

F117

F150

F014

F183

+5V

+12Vstby

2140

330p

+5V

3194

3122

470R

100R

3158

10K

3123

+5V

+5V

2138

22p

2141

1105

100n

3107

2R2

+12Vstby

2137

100n

F104

+3V3D

7113
BC847B

F148

F011

BC847B

7114

5

6

7

8

4

3135

2R2

2144

220p

LM833D

7104-B

22K

3148

F142

+3V3S

3190

F180

2117

100n

2.0V

3130

F167

22p

2106

2R2

VREF

10K

3125

+5A1

10

VCC221VCC3

3

VIN1

4

VIN2

VIN3

20

24

VIN4

25

VIN5

12

VO2+

13

VO2-

18

VO3+

17

VO3-

VO4+

26

27

VO4-

2

VOL+

1

VOL-

19

23

BIAS

16

FWD

8

GND114GND228GND3

29

MT1

30

MT2

MUTE

7

5

NC1

6

NC2

9

NC3

11

NC5

15

REV

22

VCC1

1100-4

4

BA5938FM

7103

F113

3149

F102

+5V

12K

2127

100n

F161

F162

F111

F156

F013

3162

100R

220R

3143

3117

1100-3

3

3191

180R

F153

F039

F024

F154

F152

+5V

2126

100n

+3V3S

100R

3169

F166

BC857B

7115

3127

22K

2116

100n

F176

100R

+5V

6K8

3138

3154

F134

3145

12K

560R

3181

2109

1n5

F019

F163

10K

3155

F185

3

2

1

8

4

+5V

3195

F012

LM833D

7104-A

22p

2130

F110

F124

2121
220n

3172

100K

100R

3170

3189

3188

F197

330R

3134

7109

L78M09

GND

2

IN1OUT

3

3132

2R2

F136

390R

3119

+5A4

F126

+5Vx

F127

4

3180

100K

MC34072

7105-A3

2

1

8

47R

3110

2113

100n

F198

F159

3113

8K2

BC847B

7111

F119

2131

22n

7116
BC847B

F182

F038

F035

F195

1K5

3102

2108

390p

47R

3106

F021

3129

3K9

F017

91R

3144

F165

27K

3187

2115

100n

F146

F147

10K

F132

F194

3157

F143

TM
19

VDDA18

VDDA259VDDA3

53

VDDA4 44

VDDD3
22

VDDD5
30

VDDL

63

VSSA19

VSSA258VSSA3

57

VSSA4 43

VSSD
26

27K

3163

O-C 46

O-CENTRAL 40

O-D 45

R-EXT

60

RF-REF

54

RFN

56

RFP

55

S1 42

S2 41

SICL24SIDA23SILD

25

STB
31

TD1 35

TD2 37

TDO 34

HEADER21LAND

20

LPF-DPD1 38

LPF-DPD2 39

NC111

NC217NC3

18

NC4
32

NC549NC650NC751NC8

52

O-A 48

O-B 47

61

CD-MI

62

CD-REF5

COM28COO29COP

27

DVD-A12

DVD-B13

DVD-C14

DVD-D15

DVD-LO

64

DVD-MI10

DVD-REF16 FTC 33

FTC-REF 36

7102

TZA1033

CD-A1

CD-B2

CD-C3

CD-D4

CD-E6

CD-F7

CD-LO

+3V3S

F186

F138

+5Vx

+9V

+5L

F016

3126

10K

3121

+5V

F140

27K

10M

3186

3197

1.5V

680R

3118

F139

F107

F105

2.0V

1K5

3103

22

23

24

3

4

5

6

7

8

9

+3V3S

F133

1

10

11

12

13

14

15

16

17

18

19

2

20

21

F175

1104

15p

2133

12K

1.5V

F141

F109

3142

100R

F130

F125

3156

3185

1R

2103

47u

1100-1

1

F184

F121

7101
BFS20

1

3

2

F191

1R

3178

3101

47R

3193

10K

3146

3167

100R

F135

F131

F123

F190

F114

2101
100n

F018

2R2

3137

2112

1n

390R

3104

3K9

3116

3184

120K

3115

2R2

F157

2107

68p

F168

2105
22p

2110

2n2

2114

100p

2129

100n

2136

1.5V

+5L

180p

3164

2R2

F188

F169

3114

2R2

+5V

F108

2R23175

3128

91R

F187

7110

BST82

F170

15p

2132

F128

100R

3150

47p

2102

F172

470R

3124

3161

2R2

+5V

2.5V

2119

22n

F020

2122

22n

F171

4R7

3174

2134

15p

4R7

3100

F193

+9V

3108

2R2

F112

2124

100n

22R

3153

F164

12K

2125

100n

SL-

SL+

3159

SICL

SIDA

SILD

RAC-SW

RFP

A1_MACE

ALPHA0

CALF_MACE

LDCD

MON1

O-CENTRAL

LD-DVD

RFP

S1

S2

SINPH

V-REF

F

E

VO2+

RFo

RAD+

RAD-

LDCD

RAD-

FOC+

LD-DVD

FOC-

V-REF

E

F

D

C

B

Ax

RAD+

SL-

SL+

VO2-

TRAY2

TRAY1

HPSW

COSPH

O1

O2

C

B

C

B

V-REF

MON2

TRAYSW

FO

RA

VO2-

VO2+

REFCOS

REFSIN

SL

FOC-

FOC+

MON1

MON2

03

04

Ax

D

Ax

D

V-REF

STB_DALAS

RAD­RAD+
FOC­FOC+

SL­SL+
VO2­VO2+
V-REF

CL06532065_038.eps

180500

32ASD-1 7.

Electrical diagrams and PWB’s

SERVO MACE

EN

C1

1D

core

8051

SFR

RAM

ROM

ref.

AGC

ADC/

Laser

control

control

Slegde
control

Port 5

Port 3

Port

Port 1

GEN.

TEST

DEBUG

4

Port

2

0

Port

System

interface

P6

CLOCK

PCS

counter

Radial

Focus

Track

Defect

Signal

cond.

Ex

Dx

OPC

control

detector

2213 H4
2214 H13

F220 C2
F221 C2

F242 E13
F243 E10

4

3211 D2

3210 C2

3202 A7
3203 A4

C

12

2216 H12
2226 A4
2227 A6
2228 A7

7

2209 D14

F268 H8
F269 H7

3206 B2

3227 H13
3228 I8
3229 H13

3212 D13

F200 A5
F201 A5

3250 G2

3205 B2

3204 A4

3208 C2

F027 G2

F026 G2

F240 D13
F241 E10

3230 H8
3231 H6
3232 H12

3240 B10
3241 B1

3254 H8

3251 H8
3252 H8
3253 H5

3209 C2

2210 D1
2212 H3

F289 I7
F290 I7
F291 I6
F292 I6

2215 H11

3215 D2

3214 D2

5

F276 H6
F277 H6
F278 H4

F255 F10
F256 F10
F257 F11
F258 F2
F259 F11

1201 I13
1205 A4
2203 A10
2204 B2

3200 A4
3201 A6

F266 H9
F267 H8

F254 F10

F271 H8
F272 H9
F273 H5

3

F212 B10
F213 B2

6

F262 F10
F263 G2
F264 H4
F265 H3

F025 G2

F032 H8

F031 I8

3213 D14

F208 A5
F209 A6
F210 A5

F202 A9
F203 A6
F204 A4
F205 A7

F028 H4

8 9 10 11

F216 B10
F217 B2
F218 C10
F219 C10

F222 C11

F284 H8
F285 H13
F286 H12

F244 E13
F245 E10

F214 B10
F215 B2

F230 D2
F231 D11
F232 D11
F233 D1

F293 I8
F294 I12

F274 H5
F275 H5

F238 D13

D

F279 H4
F280 H6
F281 H14

F248 E13
F249 E10

3219 F2
3220 F10

2205 B2
2206 C1
2207 D1
2208 D13

2

F223 C11
F224 C2
F225 C11

F299 B2

F239 D10

F260 F14
F261 F2

10 11 12 13

F246 E13
F247 E10

F270 H9

F207 A6

D

E

F

F211 A4

F250 E2
F251 E13
F252 E10
F253 E13

7207 A3

3246 C2
3247 F10

F206 A5

12 13 14

1

3225 H5

345

F287 I11
F288 I12

F228 C11
F229 D11

3236 H9
3237 H2
3238 I8
3239 F10

F295 I7
F296 I7
F297 A4
F298 A10

3259 A6
3260 A7
5200 A9
6200 H12
7201 D12
7202 D13

14

A

B

C

3242 C1
3243 C2

3221 F2
3222 F1
3223 F2
3224 H3

3245 A5

H

I

3248 G2

F226 C1
F227 C2

89

OPTION

3244 C2

E

F282 H7
F283 H7

H

I

3249 G2

F029 H5
F030 I8

3255 I7
3256 I7
3257 I8
3258 I12

7203 H12

F234 D2
F235 D11
F236 D2
F237 D10

3226 H4

G

F

G

A

B

F033 D13
F034 D13

67

3234 I11
3235 I12

1205

CSTCC

OPTION

OPTION

OPTION

OPTION

OPTION

+3V3S

2K7

6200

BAS316

F242

3208

F213

3211

4K7

11K

3222

F292

2206
33n

10K

3220

10K3238

+3A

F298

F258

3224
150R

F236

F299

F028

F026

F250

+3V3S

F240

+5V

+5VC

F288

F287

2215

22u

+5V

F232

+5V

F221

F278

3213

4R7

F276

+3A

F226

3249

10K

3239

F296

F297

F218

+3A

F285

F243

2210

1n

F274

100n

2205

F208

3221

10K

F295

F200

2214
22n

1201

F291

3254

F225

10K

3219

+3V3S

F202

F235

F239

+3V3S

100n

2228

3259

1R

F275

2227

100n

F233

F230

F261

3245

F272

3258

F259

+3A

F280

F255

F212

F260

F283

+5VC

1R

3202

100n

2212

3257

F256

F265

F267

F222

12K

3229

8K2

3234

2R2

3232

4K7

3227

1n

2216

+3V3S

F254

F031

3203

1M

F224

3256

100MHZ

2203

100n

3240

10K

5200

F207

1R

3260

714

813

912

11 10

GND

120

Vcc

F205

74HCT573

7201

219

318

417

516

615

F245

F234

+3A

2208

+3V3S

3250

F216

100n

10K

3206

F210

F229

F215

F241

10K3228

F286

3214

3K9

3210

3K9

+3V3S

F219

F284

F289

F253

3212

4R7

F214

+3A

F030

F204

+3V3S

F029

F223

+3V3S

F027

+3A

F025

F228

3253

3200
10K

3246

3252

+3A

F266

F279

F294

F271

10K

3237

2213
100n

+3V3S

F277

F201

+5V

F246

F211

2204

100n

F220

F268

BC857B

7203

+3V3S

3255

+3V3S

F033

F247

+3A

3251

F269

3223

11K

F273

3215

10K

F217

F264

2226
100n

F293

+3A

3209

4K7

F203

F238

10K

3230

100n

2209

200K

3225

3204
330R

100K

3235

F290

F237

3248

F248

F251

F244

F206

+3V3S

3242

22K

3244

F231

3236

4K7

W_

F249

A7

27

A8

A9

26

13

DQ0

14

DQ1

15

DQ2

17

DQ3

18

DQ4

DQ5

19

DQ6

20

21

DQ7

22

E_

24

G_

RP_NC

1

32

VCC

16

VSS

31

12

A0

11

A1

23

A10

A11

25

4

A12

28

A13

29

A14

3

A15

2

A16

30

A17

10

A2

9

A3

8

A4

7

A5

6

A6

5

F034

7202

M29F002

F282

3201

1R

F032

F281

3247

F257

F262

3205

10K

3241

22K

3243

VssDc1

82

VssDc2

21

56

VssDp1

VssDp2

95

VssDp3

43

VssDp431VssDp5

11

VssDp6

68

41

WRN

WRNH

19

127

XDET

XTLI

7

XXTLO

6

+3V3S

TXD2

40

Uopb

118

117

Uopt

VRH

105

VddAop

120

VddAs

110

VddDc1

83

VddDc2

22

57

VddDp1

VddDp2

96

VddDp3

44

VddDp4

32

VddDp5

12

VddDp6

69

VssAop

119

VssAs

109

33

39

RXD2

S1

112

S2

113

SELPLL

5

125

SINPHI

SL

72

SRV_INT_LGR

89

TEN

85

TL_FTL

81

84

TPWM

TS1

99

TS2

102

TS3

103

TXD1

34

79

P6

104

PSENn

53

PW

124

PXT017PXT1

18

16

PXT2

PXT2en

15

RA

70

RAC_SW

10

RDN

42

20

RDNH

9

REFCOS

8

REFSIN

RP

80

RSTI

98

RXD1

13

INT3|ALEh

14

IREFT

114

LDON

97

LLP

94

MON_A74MON_D

73

2

NC1

3

NC2

NC3

36

NC4

37

NC5

NC6

67

NC7

100

NC8

101

88

OPC_INT

OTD

FOK

87

FTCH

115

FTCL

116

H0|A16

23

24

H1|A17

H2|CSDN

25

H3|CSBN

26

H4

27

28

H5

H6

29

H7

30

I2CSCL

90

I2CSDA

91

35

INT0_PWD

INT1

38

INT2

ALPHAO

4

ATIPin

77

CALF

123

CLKOUT

76

CLO

86

126

COSPHI

D1|MIRN

106

107

D2|TLN

D3|REN

108

111

D4|FEN

DEB_OUT

75

DEFIn

92

DEFOn

93

DSDen

78

EAn

55

FO

71

A2

122

A8

45

A9

46

1

ACT_EMFN

128

ACT_EMFP

AD0

58

AD1

59

AD2

60

AD3

61

AD4

62

AD5

63

AD6

64

AD7

65

ALE

54

7207
SAA7399HL

A1

121

A10

47

A11

48

A12

49

A13

50

A14

51

52

A15

F227

F252

F209

F263

3226

10K

1n

2207

F270

WE

RSTN

3231
10K

S2

RAD-

RAD+

A1_MACE

PSENn

AM(14)

AM(13)

AM(12)

AM(11)

AM(10)

RAC-SW

ALPHA0

POR

ATIP_IN

S1

O2

O1

COSPH

PORN

CALF_MACE

ALE

AMD(7)

AMD(6)

AMD(5)

AMD(4)

AMD(3)

AMD(2)

AMD(1)

AMD(0)

AM(9)

AM(8)

AM(15)

INT

O-CENTRAL

SILD

SICL

OTD-HD61

TRAYSW

CSI

AM(17)

STBY

p93-89

04

03

TRAY1

p93-89

SINPH

SUR

TXD_BE

POR

HPSW

STB_DALAS

ATIP_IN

T1

AM(0:17)

AM(0:17)

AMD(0:7)

{ALE,PSENn,RDI,WRI,CSI,WE,OTD-HD61,POR,PORN,RSTN,INT,MOTO1,RFo,T1,T2,T3}

+3A

p93-89

SIDA

CFR

RXD_BE

TRAY2

AM(7)

AM(8)

AM(9)

AMD(7)

AMD(6)

AMD(5)

AMD(4)

AMD(3)

AMD(2)

AMD(1)

AMD(0)

AMD(0)

AMD(1)

AMD(2)

AMD(3)

AMD(4)

AMD(5)

AMD(6)

AMD(7)

{CFR,SUR,RXD_BE,TXD_BE}

FO

RA

SL

REFCOS

REFSIN

+5V

PSENn

WRI

RDI

WE

RFo

ALE

AM(0)

AM(1)

AM(10)

AM(11)

AM(12)

AM(13)

AM(14)

AM(15)

AM(16)

AM(2)

AM(3)

AM(4)

AM(5)

AM(6)

3104 123 4268.4

PB 4268 ASD1
MONO-BOARD

H2

I6

H9

E2

E2

CL06532065_039.eps

180500

Electrical diagrams and PWB’s

33ASD-1 7.

Decoder

CLOCK

GENERATION

CONTROL

ANALOG

DATA

CAPTURE

SUB-CPU

INTERFACE

MOTOR

INTERFACE

TACHO
BLOCK

SERIAL OUT

INTERFACE

DETECTOR

BIT

DETECTOR

DEMOD

-+

REV

PS

-

+

H BIAS

CONTROL

GAIN

DRIVER

+

-

+

-

+

+

-

+

-

+

-

+

-

F336 F7
F337 F7

F364 H12

F315 C10

11 12

2310 G11

2309 F7

F349 G9
F350 G12

3302 A7
3304 B3
3305 C3
3309 C5

F344 F8

F365 I13

7310 A10

4

13

C

3

F329 D10

3334 F8

F371 I9
F372 I12

3337 F9
3338 F9

F340 F6
F341 F7

3300 A11
3301 A6

21

3310 E5

F338 F8

F351 G9

F343 F9

F342 F9

7304 G11

6303 G8

56

7312 I13
7315 H7

F325 D10

3329 I13
3330 B5

F312 B4

8

2304 B5

3316 G9

F316 C5

10

3319 H13
3320 H6

2312 H12

2311 H12

3323 H8

11

H

I

A

B

910

5300 A8
5301 A5

F332 E10
F333 E10
F334 E10
F335 E10

F369 I13

2305 C5
2306 C2
2307 C3

F352 G12

F313 B10

3331 B4
3332 C4

F366 I12

12

F309 B4

3313 F6

D

F327 D10

2319 C4

F308 B10

3335 F8
3336 F8

F305 B10

7

3339 C5
3340 H9

1300 A6
1301 G13

F363 H9

F367 I12
F368 I9

F319 C5
F320 C10
F321 C10
F322 C5
F323 C10

E

F326 D10

2313 H12

3324 I9

F346 F8

F356 H13

F317 C10

2302 A5
2303 A5

B

C

3317 G9
3318 H7

3312 F6

3325 I12

3321 H12
3322 H8

H

I

3328 I12

65

F300 A11
F301 A8
F302 A7
F303 A5
F304 A6

13

1234

F370 I12

2314 H8

F339 F6

F347 F9
F348 F8

F361 H9
F362 H8

F311 B10

F310 B10

E

F

2315 I9
2318 B3

G

F

F307 B10

F306 B5

G

F328 D10

8

F353 G12
F354 H12
F355 H9

6301 G8
6302 G9

7

3333 F8

F314 B5

9

2300 A11
2301 A8

TO LOADER

7311 A6

F373 I12

F324 D10

F345 F8

NOT MOUNTED

F318 C10

A

D

3311 F7

3326 I13
3327 I12

F330 D10
F331 E10

F357 H6
F358 H7
F359 H12
F360 H8

58

46

WRI

+5VB

F342

F346

81

VDDD792VDDD898VDDD9

5

VREF

1

VSSA17VSSA2

11

VSSD120VSSD2

VSSD3

32 45

VSSD460VSSD573VSSD682VSSD793VSSD899VSSD9

WCLK

50

STOPCLK54SYNC

18T117

T2

21

TEST1

22

TEST2

52

V4

VDDA1

100 9

VDDA2

10

VDDD119VDDD231VDDD344VDDD459VDDD572VDDD6

84

RAD8

85

RAD9

71

RDA0

70

RDA1

68

RDA2

67

RDA3

66

RDA4

RDA5

65

64

RDA6

63

RDA7

47

RDI

4

REFHI

3

REFLO

61

RRW

29

SCL28SDA

12

OTD

23

PORE

74

RAD0

75

RAD1

87

RAD10

88

RAD11

RAD12

89

90

RAD13

91

RAD14

76

RAD2

77

RAD3

78

RAD4

79

RAD5

80

RAD6

83

RAD7

IREF

2

97

MEAS113MOTO115MOTO2|T3

24

MUXSW

14

NC1

86

NC10

16

NC2

25

NC3

36

NC4

NC5

38 42

NC651NC762NC8

69

NC9

CRIN

9495

CROUT

49

CSI

43

DA0

41

DA1

40

DA2

39

DA3

37

DA4

35

DA5

34

DA6

33

DA7

56

DATA

53

EBUOUT55FLAG

6

HFIN

30

INT

SAA7335HL

7311

8

AGCOUT

48

ALE

BCAIN

27 57

BCLK96CFLG

26

CL1

+5VB+5VA +5VB

F327

22n

2305

22n

2304

+5V

F321

F316

1M

F336

+5VB

2306

10u

3301

+5V

3313

4K7

3339

4K7

3312

+5V

+5VA

11

I|O1

12

I|O2

13

I|O3

15

I|O4

16

I|O5

17

I|O6

18

I|O7

19

OE_

22

28

VCC

WE_

27

100n

2300

6

A11

7

A12

8

A13

9

A14

10

A2

24

A3

25

A4

26

A5

1

A6

2

A7

3

A8

4

A9

5

CE_

20

GND

14

I|O0

F317

CY7C199

7310

A0

21

A1

23

A10

F318

F315

F305

F310

F347

22K

3330

F333

1R

3316

+5V

F308

NC2

2

NC3

4

6

NC4

NC5

15

PS

23

REV

24

RNF28VCC

25

VH

19

VM1

26

VM2

27

+5V

EC

22

21

ECR

FG1

18

FG2

17

FG3

16

GND

8

H1+

9

H1-

10

H2+

11

H2-

12

H3+

13

H3-

14

MT129MT2

30

NC1

1

+5VB

7304

BA6856FB

A1

7

A2

5

A3

3

CNF

20

3300

4R7

+5VB

3325

6K8

2311
100n

F323

3340

+5VA

+5V

+5V

F313

BC857B

F341

2302

+5VA

7312

F354

+5V

100n

5301

47u

2303

F334

100MHZ

2K7

F370

22n

2307

3305

F330

F332

2K7

3304

F363

F331

+5VB

F325

F361

F329

100MHZ

22K

3311

F368

F324

5300

F301

F300

F357

F303

3320

4K7

F302

100n

2301

F309

F356

F314

+5VB

F352

F340

F345

+5VB

F344

100R

3333

3302

CSTCC

1300

2309

100n

220R

6301

3K3

3331

F335

+12Vstby

S1D

3310

6302

S1D

+5V

22K

100n

2310

6K8

3321

10K

3309

100n 100n

2313

F320

2312

3323
4K7

3337

100R

100n

2314

22K

F311

3328

22K

3329

+5V

F307

2315
100n

3319

47R

+5V

F343

F364

F366

F372

F367

F373

F328

F349

F351

F326

6303

F355

F358

S1D

4K7

F304

F306

3318

F369

F339

F365

100R

F350

100R

F348

3336

3332

3K3

3335

120p

2318

F322

F338

F312

F337

1R

3317

3327

6K8

7

8

9

52271-1190

1301

1

10

11

2

3

4

5

6

4K7

3322

F371

47R

3326

100K

3324

F359

F362

F360

7315

+5V

F353

BC847B

100R

3334

2319

27p

F319

100R

3338

RAMDA21

RAMDA11

RAMDA01

RAMAD91

RAMAD81

RAMAD71

RAMAD61

RAMAD51

RAMAD41

RAMAD31

RAMAD21

RAMAD141

RAMAD131

RAMAD121

RAMAD111

RAMAD101

RAMAD11

RAMAD01

RAMAD141

RAMAD41

RAMAD31

RAMAD21

RAMAD51

RAMAD61

RAMAD71

RAMAD81

RAMAD91

RAMAD11

RAMAD01

RAMRW

RAMDA71

RAMDA61

RAMDA51

RAMDA41

RAMDA31

T2

T1

RAMRW

RAMDA31

RAMDA41

RAMDA51

RAMDA61

RAMDA71

RAMDA21

RAMDA11

RAMDA01

RAMAD101

RAMAD111

RAMAD121

RAMAD131

AMD(2)

AMD(1)

AMD(0)

AMD(0:7)

ALE

RDI

WRI

B_WCLK

B_BCLK

B_DATA

B_FLAG

B_SYNC

B_V4

MOTO1

STBY

T3

MEAS1

AMD(7)

AMD(6)

AMD(5)

AMD(4)

AMD(3)

3104 123 4268.4

PB 4268 ASD1

MONO-BOARD

CL06532065_040.eps

180500

34ASD-1 7.

Electrical diagrams and PWB’s

Memory

VDDQ

LCBR

DATA INPUT

REGISTER

PROGRAMMING

LRAS

LCBR

512Kx16

BANK

SELECT

OUTPUT BUFFER

VSS VSSQ

TIMING REGISTER

NC

512Kx16

ADDRESS REGISTER

LCKE

BURST LENGTH

LATENCY &

DECODER

COLUMN

LWCBR

LCAS

LWE

REGISTER

COL. BUFFER

LQDM

ROW DECODER

REFRESH COUNTER

ROW BUFFER

LDQM

LWE

I/O CONTROL

SENSE AMP

LRAS

VDD VDDQ

LCBR

DATA INPUT

REGISTER

PROGRAMMING

LRAS

LCBR

512Kx16

BANK

SELECT

OUTPUT BUFFER

VSS VSSQ

TIMING REGISTER

NC

512Kx16

ADDRESS REGISTER

LCKE

BURST LENGTH

LATENCY &

DECODER

COLUMN

LWCBR

LCAS

LWE

REGISTER

COL. BUFFER

LQDM

ROW DECODER

REFRESH COUNTER

ROW BUFFER

LDQM

LWE

I/O CONTROL

SENSE AMP

LRAS

VDD

H

I

E

F

G

H

3412 E5
3413 F5
3414 F5
3415 F5
3416 G5
3418 E4

3402 E1
3403 F8
3404 F11

123

7400-A E2
7400-B F2
7400-C I6

78910

5400 A3
5402 I9
5403 I12

456

13 14

A

B

C

D

SDRAM Interface

789101112

F428 I8
F430 H2
F431 H1
F432 G5
F434 F5
F435 F5

SYSTEM DATA Bus

TOP

RAM/ROM Interface

2400 B3
2401 C9
2402 C10
2403 C12

I

A

B

C

D

E

F

G

3405 F5
3406 I7
3407 I3
3409 H7
3410 I6

2417 H3
2418 I10
2419 I13
2420 I13
3400 C1
3401 C2

OPTION

OPTION

7400-D E3
7401 C6
7402 H2
7403 H3
7404 D9
7405 D12
7406 B3
F406 E2
F415 G8
F416 G11
F419 I10

11 12 13 14

1

MEMORY PART

BOTTOM

SYSTEM ADDRESS Bus

23456

OPTION

OPTION

OPTION

OPTION

F420 I13
F421 A3
F422 C2
F423 C2
F424 C2
F425 C2

2404 C13
2405 B6
2406 C9
2407 C10
2408 C12
2409 C13
2410 C9
2411 C10
2412 C12
2413 C13
2414 H7
2415 E1
2416 H2

3404

10K

2410

100n 100n

2411

+5V_DS

VDD_MEM2

10K

3405

10K

3402

2417

100n

2401

100n

13 38 44

26 50 4 10 41 47

WE_15

VDD_MEM2

6

DQ4 8

DQ5 9

DQ6 11

DQ7 12

39DQ8

40DQ9

DQMH36

14 DQML

33

37

RAS_17

125 7

A8

32 A9

BA19

CAS_16

34 CKE

35 CLK

18 CS_

DQ0 2

DQ1 3

42DQ10

43DQ11

45DQ12

46DQ13

48DQ14

49DQ15

DQ2 5

DQ3

MT48LC1M16A1TG

7404

21 A0

22 A1

A1020

23 A2

24 A3

27 A4

28 A5

29 A6

30 A7

31

74HCT1G04

7403

2

3NC1

5

4

100n

2416

2408

100n

2400

100n

+5V_DS

5400

100MHZ

100n

2412

+5V_DS

22R

3407

74HCT1G79

7402

2

134

5

+3V3

+5V_DS

F430

100u

2418

+3V3

F424

+5V_DS

3418

F423

2404

100n

VDD_MEM2

100MHZ

5402

74HCT00D

7400-A

1

2

7

14

3

2414

100n

VDD_MEM2

+5VOSC

F431

F416

RD_

19

RESET_|STROBE_

3

SCL|SCL-IN

2

SDA|SDA-OUT

20

VDD

10

VSS

18

WR_

3401

100R

6

A0

1

CLK

17

CS_

7

DB0

8

DB1

9

DB2

11

DB3

12

DB4

13

DB5

14

DB6

15

DB7

4

IACK_|SDA-IN

5

INT_|SCL-OUT

16

VDD_MEM2

PCF8584T

7406

F415

100n

2403

100n

2402

3410

100n

2406

3409

VDD_MEM

+5Vstby

F434

100n

2405

VDD_MEM

F432

3414

3415

VDD_MEM

3413

74HCT00D

7400-C

9

10

7

14

8

3412

F419

100R

3406

F425

3416

41 47

15 WE_

39

DQ9 40

36 DQMH

DQML14

33

37

17 RAS_

1 25 7 13 38 44

26 50 4 10

35

CS_18

2DQ0

3DQ1

DQ10 42

DQ11 43

DQ12 45

DQ13 46

DQ14 48

DQ15 49

5DQ2

6DQ3

8DQ4

9DQ5

11DQ6

12DQ7

DQ8

A021

A122

20 A10

A223

A324

A427

A528

A629

A730

A831

A932

19 BA

16 CAS_

CKE34

CLK

7405

MT48LC1M16A1TG

F422

F421

100n

2415

100n

2409

DQ8

18

DQ9

14

OE_

1

RESET_

23

VCC

13

VSS132VSS2

44

WE_

BYTE_

12

CE_

15

DQ0

17

DQ1

20

DQ10

22

DQ11

25

DQ12

27

DQ13

29

DQ14

31

DQ15|A-1

19

DQ2

21

DQ3

24

DQ4

26

DQ5

28

DQ6

30

DQ7

16

A12

37

A13

36

A14

35

A15

34

A16

3

A17

2

A18

43

A19

9

A2

8

A3

7

A4

6

A5

5

A6

4

A7

42

A8

41

A9

33

Am29LV160BT

7401

11

A0

10

A1

40

A10

39

A11

38

F420

47u

2419

2413

100n

12

13

7

14

11

F428

+5V_DS

7400-D

74HCT00D

VDD_MEM

F435

100R

3400

2420

47u

2407

100n

4

5

7

14

6

7400-B

74HCT00D

F406

VDD_MEM

3403

10K

100MHZ

5403

27M_CLKOUT

WAIT

SCL_EXE

SDA_EXE

CE1

DQMU

DQML

CE1

A1

D0

D1

D2

D3

D4

D5

D6

D7

RWN

CLK_8MHz

DTACKn

IRQ_I2C

RESET_I2C

AUXCLK

27M_CLK1

CLK_8MHz

CASN

CLK

CSN2

RASN

WEN

DTACKn

AD10

AD11

AD2

AD3

AD4

AD5

AD6

AD7

AD8

AD0

AD1

AD10

AD2

AD3

AD4

AD5

AD6

AD7

AD8

AD9

AD11

AD9

CASN

CLK

CSN1

DQMU

DQML

RASN

WEN

AD0

AD1

3104 123 4268.4

PB 4268 ASD1

MONO-BOARD

CL06532065_041.eps

290500

OPTION = NOT USED FOR FUTURE APPLICATION: I2C FROM MASTER TO SLAVE FOR SYSTEMS / COMBI'S

Electrical diagrams and PWB’s

35ASD-1 7.

STI 5505

LPCM

AUDIO

IRQPORT 0 I/O PORT 1 I/O

Subpicture

Video

Audio

SDRAM CONTROLLER

SYSTEM USE JTAGPORT 2 I/O PORT 3 I/O PORT 4 I/O

FRONT-END

uP ST20cpu

A/V/Sub

demultiplexer

MPEG

DECODER

Subpicture

decoder

TEST

2

I S

ADDRESS DATA

Interface

MEMORY interface

VIDEO

ENCODER

DECODER

AC3

MPEG1/2

OSC

F568 F2
F569 F14
F573 G14

13

F589 H12

13 14

2526 I11

14

2528 I11

2515 I4

3538 I13
3540 C9
3541 B7
3542 B8

F507 B9
F508 B9
F509 B9
F510 B9
F511 A1

F567 F14

F513 B11

910

3

F590 H13

2

3552 B10

F519 C9
F520 C7

3555 B9
3556 B9
3557 B9

3501 B3

1506-18 C14

2516 I5

2521 I9

F558 D14
F559 E14
F560 E14
F562 E14
F564 F14

BASIC ENGINE INTERFACE Bus

F597 I8

F595 I8
F596 I8

2517 I5
2518 I5
2519 I9

F502 B5

3456

2520 I9

8

F583 G2

3561 B9

F515 B1

2525 I10

1

2529 I11

3537 I12

F504 B9
F505 B9
F506 B9

F592 I8
F593 I8
F594 I8

3511 C6
3512 C6
3513 A10

3573 I12

3515 C6

3545 D14
3546 C7
3547 B6
3548 A10

F512 B1

3550 B10

2522 I10

3502 B5

3516 C6
3517 C13
3519 C9
3520 C11

2506 D14

A

3551 B10

3503 B11

3506 B4

I2C Bus

3504 B11

2527 H13

3505 B11

F516 B1
F517 B11
F518 B6

F503 A6

F556 D12
F557 D12

2513 I4

5503 A1
5504 B1

2512 I4

1506-8 A14

F566 F14

3563 C7

3562 C7

SYSTEM ADDRESS Bus

F514 B8

F578 G2
F579 G2

3549 B10

3523 D13

2509 E13
2510 I3

3564 C7

F531 C10

F574 G14
F576 G14

F521 C10

2524 I10

2530 I11
2531 I11
2532 B1
2533 A1

789

1506-16 C14
1506-17 C14

3509 B11

3536 I14

7504 I13

F546 C9
F547 C9
F548 C9

1506-3 A14
1506-4 A14

1506-14 B14

1506-13 B14

1506-7 A14

H

1506-9 B14

2523 I10

3534 I12
3535 I13

F598 I8

C

1506-1 A14

2507 D14
2508 E14

3507 B5

3553 B11
3554 B10

2534 B1
2535 B1
3500 B3

10 11 12

F539 C6

5501 H11

2514 I4

I

2500 A3
2502 B5
2503 B6
2504 C11

2511 I3

7505 A2
F050 I14
F051 I14
F052 C7
F053 C7

3521 C12

F580 G2

G

E

F

H

F581 G2

F532 C10
F533 C10
F534 C10

F522 C11
F523 C13

3558 B9
3559 B9
3560 B9

B

3508 B11

1506-15 B14

F540 C6

TO/FROM DISPLAY

7501 B5

F588 H12

7

F582 G2

F586 H11
F587 H13

F549 C9
F552 C7

F054 C12
F055 D14
F056 F14

3524 D14
3525 E14

1506-12 B14

D

E

1506-23 D14

B

F524 C10

1506-11 B14

1506-10 B14

1506-2 A14

3565 C8
3566 C7
3567 C7
3568 C8
3569 I12
3570 F14
3571 A2
3572 B2

1506-6 A14

G

I

1506-24 D14

C

D

1506-5 A14

SDRAM Interface

F541 C12
F542 C9
F543 C7
F544 C9
F545 C9

F553 C8
F554 D8

3522 C12

F555 D6

F058 C7
F059 C8
F060 C8
F500 A13

1506-19 C14

SYSTEM DATA Bus

1

F535 C5

1501-2 B1
1501-3 B1
1501-4 B1
1501-5 B1

F

F501 A11

2

F536 C6
F537 C11
F538 C6

F529 D7
F530 C10

HSYNC

5502 I11

F585 H11

11 12

7503 D2

F528 C11

1506-21 C14
1506-22 C14

3514 C6

3526 F2

456

F599 I8

RAM/ROM Interface

F525 C11
F526 C7
F527 C7

1506-20 C14

VDD_STI

OPTION

OPTION

OPTION

OPTION

OPTION

OPTION

OPTION

OPTION

OPTION

OPTION

OPTION

2505 B11

A

1501-1 A1

F521

F531

F553

F599

+5Vstby

F554

5504

F573

VDD_STI

8

68R

3571

1501-1

F528

1506-8

3572

3547

3K3

3562

68R

3534

10K

1506-20

20

VDD_STI

F594

5503

3570

100R

F503

VDD_STI

3566

3557

100R3551

F592

VDD_STI

F512

F514

VDD_STI

3569

F524

F544

VDD_STI

3541

47R

VDD_STI

3520

10K

1506-7

7

F504

3542 47R

1506-12

12

4K7

3507

100n

2511

3546

100R

3508

68R

F060

3501

3559

F576

3K3

F556

F527

100R3550

F587

100n

2525

100n

2518

F579

F533

F559

100n

2503

F522

1506-24

24

F506

VDD_STI

F518

F596

F589

F566

3K3

3500

3K3

3517

2u2

5501

3555

3540

4K7

VDD_STI

F529

F523

21

3K3

3512

2512

100n

1506-21

2507

F546

F595

100n

3563

F558

100n

2515

2520

VDD_STI

2505

22n

100n

F542

+5VOSC

F540

VDD_STI

VDD_STI

VDD_STI

F569

100n

2528

F578

F505

3549

F501

3565

47p

F562

2532

F557

F574

VDD_STI

3552

3553

F500

F581

F530

100R

F513

VDD_STI

100R

1506-14

14

3536

F548

3554

2535

1n

F585

F532

1501-4

F583

1506-22

22

1

VDD_STI

1506-1

F580

F536

10K

100n

2514

3505

F567

100n

2521

10K3504

F535

F564

VDD_STI

10K

3513

3561

100n

2513

11

F586

330p

1506-23

23

1506-11

2509

3558

3524

100R

F516

F515

3522

10K

F560

15

2519

100n

3

F059

1506-15

F520

1506-3

VDD_STI

3556

330R

3537

1n

2534

10K

VDD_STI

VDD9

110

VDDA153VDDA2

60

VDDA_PCM 48

VREF_PCM 49

VSSA154VSSA2

61

VSSA_PCM 50

V_REF_DAC_RGB

58

V_REF_DAC_YCC

65

WE0n

121

WE1n

122

Y_OUT

62

3509

VDD10119

VDD11130

VDD12139

VDD13149

VDD14159

VDD15171

VDD16184

VDD17208

VDD218

VDD334

VDD467

VDD575

VDD686

VDD795VDD8102

SDCS0n84SDCS1n85SDRASn88SDWEn

90

SPDIF_OUT

47

TCK

188

TDI

186

TDO

189

TEST130TEST2

31

32

TEST3

TEST433TEST5

41

TMS

187

TRSTn

190

VDD1

1

PIO-4|3

194

PIO-4|4

195

PIO-4|5

196

PIO-4|6

197

PIO-4|7

14

PIXCLK_27MHz

118

PPC_CLK

137

PPCn_MODE

138

RAS0n_OR_CE4n

127

RAS1n_OR_HOLDREQ

128

136

READY

RSTn

29

R_OUT

57

133

R|W_|DMAACK

SCLK

43

SDCASn

89

3

PIO-2|35PIO-2|46PIO-2|57PIO-2|78PIO-3|0

201

PIO-3|1

202

PIO-3|2

203

PIO-3|3

204

PIO-3|4

205

PIO-3|5

206

PIO-3|6

207

2

PIO-3|7

PIO-4|0

191

PIO-4|1

192

PIO-4|2

193

PCM-OUT1

21

PCM-OUT2|PIO-0|6

PCM_CLK

45

PCM_OUTO

44

PIO-0|015PIO-0|316PIO-0|417PIO-0|520PIO-0|722PIO-1|09PIO-1|210PIO-1|3

198

199

PIO-1|4

PIO-1|511PIO-1|612PIO-1|713PIO-2|0

96

103 GND8

GND9

111

G_OUT

56

HSYNCn

51

IRQ0 23

IRQ1 25

I_REF_DAC_RGB

59

I_REF_DAC_YCC

66

LRCLK

46

MEMCLKIN

104

MEMCLKOUT

76

ODD_OR_EVEN

52

OEn

123

OSD_ACTIVE

117

24

DQMU

105

GND14

GND10

120

GND11131

GND12140

GND13150

GND14160

GND15172

GND16

185

GND17200

GND219GND335

GND468

GND577

GND687

GND7

DQ193DQ10

108

DQ11

109

DQ12

112

DQ13

113

DQ14

114

DQ15

115

DQ294DQ397DQ498DQ599DQ6

100

DQ7

101

DQ8

106

DQ9

107

DQML

91

DATA11

154

DATA12

155

DATA13

156

DATA14

157

DATA15

158

DATA2

143

DATA3

144

DATA4

145

DATA5

146

DATA6

147

DATA7

148

DATA8

151

DATA9

152

DMAXFER

134

DQ0

92

B_FLAG

38

B_OUT

55

B_SYNC

39

B_V4

42

B_WCLK

40

CAS0n_OR_HOLDACK

129

CAS1n_OR_DMAREQn

132

CE1n

124

CE2n

125

CE3n

126

CSn

135

CVBS_OUT

64

C_OUT

63

DATA0

141

DATA1

142

DATA10

153

ADR2

162

ADR20

182

ADR21

183

ADR3

163

ADR4

164

ADR5

165

ADR6

166

ADR7

167

ADR8

168

ADR9

169

AUXCLK

116

BRM0_OR_OSLINK_SEL

26

BRM1_OR_BOOTFROMROM

27

BRM2

28

B_BCLK

37

B_DATA

36

AD570AD671AD772AD873AD9

74

ADR1

161

ADR10

170

ADR11

173

ADR12

174

ADR13

175

ADR14

176

ADR15

177

ADR16

178

ADR17

179

ADR18

180

ADR19

181

7503
STI5505

AD078AD179AD1082AD11

83

AD280AD381AD4

69

16

F582

2531

4u7

1506-16

1506-17

17

F538

100n

2523

2526

100n

3515

10K

F051

F056

F058

+5Vstby

3538

680R

1506-4

4

1506-10

10

VDD_STI

100n

2510

VDD_STI

1506-19

19

F552

F053

5

3564

VDD_STI

1506-6

6

1506-5

VDD_STI

F517

F541

3K3

3523

F593

F526

F525

F549

3516

F545

1

E0

2

E1

3

E2

6

SCL

5

SDA

8

VCC

4

VSS

7

WC_

10K

M24C32

7505

F054

1501-5

F050

1506-9

9

TS

1

VDD

4

1506-2

2

VDD_STI

7504
FXO-31FT

GND

2

OUT

3

F509

F507

F052

100n

2527

47p

2533

F590

F543

3560

F588

F598

3567

VDD_STI

10K

3519

100n

2516

3548

3502

22K

3n3

2508

F547

220R

F055

3514

10K

3545

3568

3526

10K

3506

10K

2502

4u7

2530

4u7

2522

100n

2500

100n

2u2

VDD_STI

+5Vstby

1506-13

13

5502

2517

100n

2504

100p

VDD_STI

F539

18

1501-2

3511

3K3

VDD_STI

1506-18

F555

1501-3

100n

3521

10K

3535

15K

2524

7501
BC847B

F534

10K

3525

VDD_STI

F502

F597

F537

F511

2506

10u

3503

10K

F510

100R3573

F519

F568

F508

100n

2529

VDD_STI

kar_by_pass

RESET_I2C

SERVICE

SPDIF_OUT

SCL_EXE

SDA_EXE

OSD_ACTIVE

SEL_ACLK2

YC2

YC1

YC0

IRQ_I2C

27M_CLKOUT

RESETN

TCK

PCMout1

PCMout2

SDA

P50

STB_CONT

PCM_CLK

CE1

centre_on

27M_CLK1

TXD_SER

{SCLKo,PCM_OUTO,PCM_CLK,LRCLKo,SPDIF_OUT,R_OUT,G_OUT,B_OUT,C_OUT,CVBS_OUT,Y_OUT,27M_CLK}

WAIT

AUXCLK

B_SYNC
B_V4

B_BCLK
B_FLAG

YC5

YC4

YC3

HSYNC

FLASH_OEN

OSLINKIN

YC0

YC1

YC2

YC3

YC4

YC5

YC6

YC7

OSD_ACTIVE

VSYNC

VSYNC

HSYNC

OSLINKOUT

CPUreset

CPUanalyse

ErrorOUT

FLASH_OEN

YC7

centre_on

kar_by_pass

MUTE

SERVICE

RXD_SER

YC6

AD9

AD8

AD7

AD6

AD5

AD4

AD3

AD2

AD1

AD0

SCL

SDA

CTS_SER

RTS_SER

B_DATA
B_WCLK

DQML

WEN

RASN

CASN

CSN2

CSN1

DQ15

DQ14

DQ13

DQ12

DQ11

DQ10

DQ9

DQ8

DQ7

DQ6

DQ5

DQ4

DQ3

DQ2

DQ1

DQ0

AD11

AD10

A4A3A2

A1

D8

D9

D10

D11

D12

D13

D14

D15

TDO

LRCLKo

PCM_OUTO

SCLKo

G_OUT
B_OUT

DQMU

RSTN

RAS0ND

RAS1ND
RWN

A20

A19

A18

A17

A16

A15

A14

A13

A12

A11

A10

A9A8A7A6A5

OS_BOOT

CAS0ND
CAS1ND

CE_ROMN

D0

D1

D2

D3

D4

D5

D6

D7

CLK

OEND

SCL

SEL_ACLK1

TXD_BE

RXD_BE

27M_CLK

27M_CLK

27M_CLK

STB_CONT

CVBS_OUT

C_OUT

Y_OUT

R_OUT

TMS

TDI

TRSTN

3104 123 4268.4

PB 4268 ASD1
MONO-BOARD

4

4

4

4

6

6

2

4

4

4

4

6

6

6

6

6

6

6

6

4

CL06532065_042.eps

180500

36ASD-1 7.

Electrical diagrams and PWB’s

Service interface and Back-end

OSCILL.

CRYSTAL

BUFFER/

CLOCK

+2

BUFFER

OUTPUT

OUTPUT
BUFFER

OUTPUT
BUFFER

BUFFER

OUTPUT

BUFFER

OUTPUT

SYNTHESIS

CLOCK

CONTROL CICUITRY

AND

CLOCK SYNTHESIS

CONTROL CICUITRY

CLOCK SYNTHESIS AND

1603-2 G13

5602 F10
5603 F1

3619 D9

F660 I9
F661 I10
F663 I9

3681 H8
3682 H8

7600-D B12

7600-C A12

3684 I8
3685 I8
3686 E2

3617 D12
3618 D8

1604 G13
1605 E1
1606 E1

5610 D1
6600 C9
7600-A A11

TO AUDIO / VIDEO MUX. BOARD

F644 E11

F643 F10

F630 D12
F631 B3

1603-3 F13

1607 E1
1608 E1
2600 A12

1603-7 D13
1603-8 C13
1603-9 C13

F622 C10
F623 D2
F624 C10
F625 D13

3624 E11

3623 E11

FROM SUPPLY

5608 I9

F618 C2

5607 I9

F619 C11
F620 C13
F621 C6

5604 F10

F629 D10

3688 E3
3689 F3
3690 E4

F628 E6

5600 A13
5601 E5

D

2604 C3

2603 B2

1603-19 E13

7616 G1

1603-20 E13
1603-21 F13

F659 H13

7621 E3
F600 A13

3663 G11

3620 A13
3621 B13
3622 C9

3677 F8
3678 G6
3679 G8
3680 G8

2605 C8

F639 E8

F638 E12

2601 A13
2602 B13

2644 F13
2645 F13

3687 E2

3611 B13
3612 B6
3613 B6

3691 G1

3615 C11
3616 D12

3608 B11
3609 C12
3610 A13

1603-22 D13

I

1603-4 D13

3614 C6

1603-6 G13

1600 B1

E

F

7600-B B11

F626 D10
F627 D2

F616 B13
F617 B7

F615 B2

5609 A2

3626 F11
3627 B7
3628 C7
3629 C10

F652 G10
F653 G11

F640 E11

5605 G10
5606 H9

12 13

A

B

C

F613 B12
F614 B2

7614 G10
7615 H10

2607 D2

F651 G9

7618 I10
7620 E2

2611 D1
2614 F9

TO AUDIO/VIDEO MUX. BOARD

F632 F1

1603-5 F13

1602-1 A13
1602-2 A13

1603-10 C13

F664 I10

2606 C9

F649 F11

1603-13 D13
1603-14 E13
1603-15 E13
1603-16 E13
1603-17 D13

10

2646 H4
3605 D5
3606 C10
3607 B12

BLM31

3683 I8

3630 C8

4

F665 I13
F666 I11

H

3631 F9

G

H

I

3636 C13
3637 C12

BLM31

A

B

C

D

E

F

3625 E11

F671 E2
F672 E2
F673 E3
F674 E3

TO/FROM PC INTERFACE

1603-18 E13

F637 E12

F641 E11

F601 A13
F602 A13
F603 A12
F604 A3

F647 F9
F648 F10

1602-5 B13
1602-6 B13
1602-7 A13
1603-1 E13

F645 I3

2608 B3
2609 C2
2610 F6

7604 B7
7605 B3
7607 B6

3664 G10
3665 E11
3667 E11
3669 G1
3670 G1

F605 A2
F606 A12

7

2623 H10

9101112

F654 H9

SERIAL PC INTERFACE

2615 F10

119

123

2640 F12
2641 F12
2642 F12
2643 F12

F609 B6

3632 F10
3633 G9
3635 B13

F610 B7
F611 B13
F612 B12

F657 H11
F658 H13

678

F669 C11
F670 C2

2622 H9

3658 I10

2624 I9
2625 I9
2626 I9
2627 I9

13

F636 C2

F635 E12

8

1603-11 C13
1603-12 D13

1602-3 A13
1602-4 B13

3673 G3
3674 D11
3675 I4
3676 E5

7612 F11
7613 F11

3655 I10
3656 I10
3657 H10

7617 I10

3659 I10

3642 B6

2616 G9
2617 G10
2618 F2
2619 F2

56

3660 H11
3661 G10
3662 G11

2632 C9
2633 C9
2634 C2
2635 C3

F655 H10
F656 H13

F633 E12
F634 C3

G

2638 D3
2639 D4

2636 C4
2637 D2

F607 A13
F608 B3

OPTION

OPTION

OPTION

OPTION

OPTION

OPTION

7609 C10

3647 G9
3648 H9
3651 I9
3654 I9

2620 G9
2621 G10

1 2345

3671 G1
3672 C3

F646 F11

7600-E A9
7600-F A8

7608 C11

7610 D10
7611 F5

2641

1603-11

11

OPTION

OPTION

OPTION

47R

3672

22p

1K

-Vvid

12

14

7

-Vvid

3659

F606

74HCT14D

7600-F

13

1603-21

21

F626

F635

2627

47p

5600

F649

1n5

2601

22p

2645

+5VOSC

-8Vstby

2643

22p

7

PS0

15

PS1

16

PS2

1

VDD14VDD2

13

X1

3

X2

2

BC847B

7613

7616
MK2742

13_5M

10

27M

9

3_68M

14

ACLK

6

AS0

8

AS1

12

GND15GND2

11

PCLK

2606

100u

+5V

-Vvid

1602-7

PH-S7

3658

1K

F641

1603-19

19

+5V

5605

15u

+6Vstby

+5V

+5V

5603

3681

100n

2603

F654

1K

3660

1603-22

22

22n

2600

F609

430R

2623

47p

100n

3657

100n

2636

47p

2620

2618

1603-1

1

7615

F625

3619

22K

BC847B

+5V

VDD_STI

2602

+5V

22K

3618

+5V

1n5

1603-17

17

+5V

+5VOSC

2634

100n

1602-5

PH-S5

3611

10K

100u

2632

100K

3609

+5V

F644

1606

3637

3K3

F651

1603-3

3

F621

F669

3628

470R

VDD_STI

7609

BC857B

F652

F623

3671

22K

3617

10K

47K

3606

F631

PH-S

1602-6

6

100n

2610

F666

F613

1602-2

PH-S2

-8Vstby

6K8

3635

F670

F632

F637

5608

15u

56

14

7

3622

100R

7600-C

74HCT14D

3651

430R

3678

+5V

BC847B

7604

3610

10K

-Vvid

3684

+3V3

47p

2624

+5V

3683

3689

22K

+5V

1K

3662

22K

3687

2621

+5Vstby

7600-B

74HCT14D

34

14

7

47p

100R

3623

F603

3663

1K

1603-20

20

+5V

7611

74HCT1G125

2

1

5

3

4

F629

PH-S

1602-4

4

1607

3685

F601

13

14

15

16

2

3

4

5

6

7

8

9

1604

1

10

11

12

100MHZ

5610

-Vvid

F630

LD1117

7605

1

GND

3IN2

OUT

7

+12Vstby

+12Vstby

430R

3656

74HCT14D

7600-D

98

14

F658

100K

3607

1603-13

13

7600-A

74HCT14D

12

14

7

100R

3625

F638

VDD_STI

7

100u

2611

3682

1603-7

3679

F633

15u

5602

F605

F611

F607

10K

3615

F653

3620

100R

3688

4K7

F671

430R

+5V

3673

3655

5606

15u

+5V

430R

3633

3647

430R

F622

+5VOSC

+3V3

F610

430R

F664

F672

3661

1605

1603-6

6

1608

47u

2609

+3V3S

430R

3664

F647

2614

47p

15u

5607

10K

3642

F619

2633

100u

F617

2604

100u

F624

F614

12

2

3

4

5

6

7

8

9

1600

1

10

11

3686

22K

2616

-8Vstby

47p

1PS76SB10

6600

47p

10K

3613

2622

1603-16

16

F615

3614

10K

3680

1603-10

10

F646

F618

F648

2617

47p

STB_CONT

+5V

2639

100n

VDD_STI

3691

10u

2608

3670

+5Vstby

-Vvid

F663

F616

220R

F661

F645

3630

F602

F674

100n

2638

-8Vstby

2626

47p

2625

47p

-8Vstby

+6Vstby

3632

430R

15u

5604

BC847B

7612

F628

BC847B

7607

1603-9

9

3669

100n

2635

7621
BC817-25

-8Vstby

3621

100R

2644

22p

3676

F657

4K7

3629

430R

3648

100MHZ

5601

F660

F620

F656

+5V

2605

22n

BC847B

7617

F636

F639

1603-2

2

BC847B

7618

+5VOSC

8

3612

10K

1603-8

6K8

BC857B

7608

+5V

3636

BC847B

+3V3

+5V

3616

10K

7610

F612

1603-15

15

2615

47p

F665

F655

7614
BC847B

3674

100MHZ

5609

F608

330R

3667

2619

100n

3665

22R

7620
BC857B

22p

2640

3690

F634

+5V

PH-S

1602-1

1

1603-4

4

1603-14

14

1603-12

12

F640

3

F604

+5VOSC

1602-3

PH-S

5

430R

3654

2642

22p

1603-5

18

2637

100n

1603-18

-Vvid

3605

2607

100u

+5V

74HCT14D

7600-E

1110

14

7

+5V

F627

+5Vstby

+12Vstby

F673

-8Vstby

3624

100R

430R

3631

470R

3627

3608

100K

3677

1K

3626

F643

F600

22p

2646

F659

3675

SCLK

LRCLK

CFLG

B_FLAG

MEAS1

P50

SEL_ACLK2

SEL_ACLK1

CVBS_OUT

C_OUT

{SCLKo,PCM_OUTO,PCM_CLK,LRCLKo,SPDIF_OUT,R_OUT,G_OUT,B_OUT,C_OUT,CVBS_OUT,Y_OUT,27M_CLK}

SCLKo

PCM_OUTO

PCM_CLK

LRCLKo

SPDIF_OUT

CVBS

R_OUT

G_OUT

B_OUT

RTS_SER

HSYNC

Y_OUT

R_VID

PCMout2

PCMout1

SCL

SDA

Y_VID

C_VID

B_VID

G_VID

RXD_SER

CTS_SER

SERVICE

TXD_SER

SCART0

SCART1

0_6_12V

0_6_12V

MUTE

MUTE_AV

3104 123 4268.4

PB 4268 ASD1

MONO-BOARD

5

5

5

5

5

66

5

CL06532065_043.eps

180500

Electrical diagrams and PWB’s

37ASD-1 7.

Top view

CL06532065_044.eps

230500

SUPPLY

AV1

AV2

SERVICE

I

2

C

38ASD-1 7.

Electrical diagrams and PWB’s

Detailed Top view 1

CL06532065_045.eps

180500

Electrical diagrams and PWB’s

39ASD-1 7.

Detailed Top view 2

CL06532065_046.eps

180500

40ASD-1 7.

Electrical diagrams and PWB’s

Bottom view

CL06532065_047.eps

180500

Electrical diagrams and PWB’s

41ASD-1 7.

Detailed Bottom view 1

CL06532065_048.eps

180500

42ASD-1 7.

Electrical diagrams and PWB’s

Detailed Bottom view 2

CL06532065_049.eps

180500

Electrical diagrams and PWB’s

43ASD-1 7.

Testpoint overview

VH

H3-

Stby-out

T2

MOTO1

H3+
H1+
H2+
A1
A2
A3
H1­H2-

Stby

9V

FOC-

O1
O2
O4

O3

RAD+
FOC+

RAD-

S2

S1

A
B

C

D

F

E

2.5V
3V3

PCM_CLK

B_VID

VO2­VO2+

27M_CLK

R-VID
G-VID
CVBS

T1

CL1

STOPCLK

RFO

B_V4
B_BCLK

B_WCLK
B_SYNC

LRCLK
PCMOUT0
SCLK
DEEMPH1

SPDIF
PCM_CLK

DEEMPH0

HSYNC

C_VID

PCMOUT2

MUTE
PCMOUT1
SCART

Y_VID

STB_CONT

RSTN

SL+

FO

SL

RA

Sinph

SL-

Cosph

T3

CL06532065_050.eps

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