DVD-Video Player
DVD963SA
DVD963SA /001 /171 /691
CL 26532105_000.eps
280802
Contents
Page
Contents
Page
1
2
3
4
Technical Specs and Connection Facilities
Safety Instructions, Warnings, and Notes
Directions for Use
2
3
4
8
Alignments (Not Applicable)
77
77
86
87
91
9
Circuit Descriptions
List of Abbreviations
IC Data
10 Spare Parts List
Mechanical-, Dismantling Instructions, and Service
Hints
18
5
6
Diagnostic Software, Trouble Shooting and Test
Instructions
Block-, Wiring Diagram and Testpoint Overview
Block Diagram
21
41
Wiring Diagram
42
Testpoint Overviews
43
7
Electrical Diagrams and Print-Layouts
Power Supply Unit
Diagram PWB
46
AV Board: SYS Clk & Control
AV Board: Upsampling DAC
AV Board: Audio DAC
AV Board: Curr to Volt. Converter(Diagram A4) 50
AV Board: Audio
AV Board: Video & SCART
Front Board: Display
P-Scan Board: Line Doubler
P-Scan Board: Encoder
P-Scan Board: Video Output
Standby Board
(Diagram A1) 47
(Diagram A2) 48
(Diagram A3) 49
53-56
53-56
53-56
53-56
53-56
53-56
58-61
65-70
65-70
65-70
71
(Diagram A5) 51
(Diagram A6) 52
(Diagram D) 57
(Diagram P1) 62
(Diagram P2) 63
(Diagram P3) 64
(Diagram S) 71
Double Scart Panel: Switching (Diagram S1) 72
Double Scart Panel: SCART (Diagram S2) 73
74-76
74-76
©
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.
Published by MW 0271 Service PaCE
Printed in the Netherlands
Subject to modification
Safety Instructions, Warnings and Notes
2.
EN 3
2. Safety Instructions, Warnings and Notes
2.1 Safety Instructions
2.1.1 General Safety
2.2 Warnings
2.2.1 General
Safety regulations require that during a repair:
•
All ICs and many other semiconductors are susceptible to
electrostatic discharges (ESD, symbol ). Careless
handling during repair can reduce life drastically. Make
sure that, during repair, you are at the same potential as
the mass of the set by a wristband with resistance. Keep
components and tools at this same potential. Available
ESD protection equipment:
•
•
Connect the unit to the mains via an isolation transformer.
Replace safety components, indicated by the symbol ,
only by components identical to the original ones. Any
other component substitution (other than original type) may
increase risk of fire or electrical shock hazard.
Safety regulations require that after a repair, you must return
the unit in its original condition. Pay, in particular, attention to
the following points:
–
Complete kit ESD3 (small tablemat, wristband,
connection box, extension cable and earth cable) 4822
310 10671.
•
•
•
Route the wires/cables correctly, and fix them with the
mounted cable clamps.
Check the insulation of the mains lead for external
damage.
Check the electrical DC resistance between the mains plug
and the secondary side:
1. Unplug the mains cord, and connect a wire between
the two pins of the mains plug.
2. Set the mains switch to the 'on' position (keep the
mains cord unplugged!).
3. Measure the resistance value between the mains plug
and the front panel, controls, and chassis bottom.
4. Repair or correct unit when the resistance
measurement is less than 1 MΩ.
–
Wristband tester 4822 344 13999.
•
Be careful during measurements in the live voltage section.
The primary side of the power supply (pos. 1005), including
the heatsink, carries live mains voltage when you connect
the player to the mains (even when the player is 'off'!). It is
possible to touch copper tracks and/or components in this
unshielded primary area, when you service the player.
Service personnel must take precautions to prevent
touching this area or components in this area. A 'lightning
stroke' and a stripe-marked printing on the printed wiring
board, indicate the primary side of the power supply.
Never replace modules, or components, while the unit is
‘on’.
•
5. Verify this, before you return the unit to the customer/
user (ref. UL-standard no. 1492).
2.2.2 Laser
6. Switch the unit ‘off’, and remove the wire between the
two pins of the mains plug.
•
•
•
•
The use of optical instruments with this product, will
increase eye hazard.
Only qualified service personnel may remove the cover or
attempt to service this device, due to possible eye injury.
Repair handling should take place as much as possible
with a disc loaded inside the player.
Text below is placed inside the unit, on the laser cover
shield:
2.1.2 Laser Safety
This unit employs a laser. Only qualified service personnel may
remove the cover, or attempt to service this device (due to
possible eye injury).
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 ALTTIINA NÄKYVÄLLE JA NÄKYMÄTTÖMÄLLE 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
Laser Device Unit
Type
!
:
Semiconductor laser
GaAlAs
Wavelength
Output Power
:
:
:
650 nm (DVD)
780 nm (VCD/CD)
20 mW (DVD+RW
writing)
0.8 mW (DVD
reading)
0.3 mW (VCD/CD
reading)
60 degree
ATTENTION RAYO NNEMENT LASER VISIBLE ET INVISIBLE EN CAS D'OUVERTURE EXPOSITION DANGEREUSE AU FAISCEAU
Figure 2-2 Warning text
2.2.3 Notes
:
:
:
Dolby
Manufactered under licence from Dolby Laboratories. “Dolby”,
“Pro Logic” and the double-D symbol are trademarks of Dolby
Laboratories. Confidential Unpublished Works. ©1992-1997
Dolby Laboratories, Inc. All rights reserved.
Beam divergence
Figure 2-3
Figure 2-1 Class 1 Laser Product
Trusurround
TRUSURROUND, SRS and symbol (fig 2-4) are trademarks of
SRS Labs, Inc. TRUSURROUND technology is manufactured
under licence frm SRS labs, Inc.
Note: Use of controls or adjustments or performance of
procedure other than those specified herein, may result in
hazardous radiation exposure. Avoid direct exposure to beam.
Figure 2-4
Mechanical-, Dismantling Instructions, and Service Hints
EN 20
4.
4.3.3 ComPair
4.3 Service Hints
For assistance with the repair process of the monoboard an
4.3.1 Switched Mode Power Supply
electronic fault finding guidance has been developed. This
program is called ComPair.
The power supply unit has to be replaced in case of failure. The
schematic provided in the manual is only for information and no
service parts will be available.
This ComPair program is available on CDROM.
The version of the CDROM for repair of the monoboard is V1.3
or higher 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 code number 4822 727
21634 and has to registered after instalation. The procedure for
registration is explained in the help file of the program and in
the CDROM booklet.
4.3.2 DVD Module
This module can be repaired as follows:
1. The VAL6011/14 is a combination of loading mechanism
and DVD-mechanism. Both are not repairable units and in
case of failure, it has to be replaced with a new loader
VAL6011/14.
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, are described on the
CDROM.
Note: When replacing with a new VAL6011/14, two solder
joints have to be removed after connecting the OPU flex foil
to the mono board.
The solder joints, which shortcircuits the laser diodes to
ground, are for protection against ESD. Refer to figures 2-
5 and 2-6 for location of solder joints.
4.3.4 Service Positions
Refer to dismantling instructions for dismounting of the board.
Figures 2-7 to 2-8 shows the service position that are
recommended during repair of the boards.
2. The mono board has to be repaired down to component
level. Repair handling of the monoboard requires a
workshop with sophisticated desoldering tools.
Figure 4-3 Solder joints
Figure 4-5 DVD963SA Layout
Figure 4-4 Solder joints
Figure 4-6 DVD963SA service manual
Diagnostic Software, Trouble Shooting and Test Instructions
5.
5. Diagnostic Software, Trouble Shooting and Test Instructions
5.1.2 Contents of Dealer Script
5.1 Dealerscript
The dealer script executes all diagnostic nuclei that 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):
5.1.1 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.
Nucleus
Display
Countdown Number
Nucleus
Nucleus
Name
Description
7
6
PapChksFl
Calculate and verify checksum of FLASH memory
Checks the I2C interface with the slave processor on
the display board
Checks the I2C interface to the basic engine
Checks the I2C interface with the NVRAM
Pattern test of all locations in the NVRAM
Pattern test of all locations in the SDRAM(s)
6
5
4
3
2
12
13
11
15
16
PapI2cDisp
PapS2bEcho
PapI2cNvram
PapNvramWrR
CompSdramWrR
1
63
FURORERSdramWrRLow Pattern test of all locations in the SDRAM(s)
Figure 5-1 Dealer script nuclei
Press 2 keys simultaneously
<OPEN/CLOSE> + <PLAY>
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:
NO
SET O.K.?
YES
To exit DEALER SCRIPT, disconnect from mains
CL 26532053_053.eps
150502
Figure 5-2 Dealer Script
Diagnostic Software, Trouble Shooting and Test Instructions
EN 22
5.
Press the OPEN/CLOSE key to proceed to the next test.
5.2 Player Script
5.2.4 Survey
5.2.1 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
speakers 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.
Press 2 keys simultaneously
<OPEN/CLOSE> + <STOP>
Connect to mains
INTERACTIVE TESTS
DISPLAY PCB
DISPLAY TEST
LED TEST
DispDisplay (30a)
DispLed (29)
KEYBOARD TEST
REMOTE CONTROL
P50 LOOP BACK TEST
DispKeyb (27)
DispRc (28)
5.2.2 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.
DispP50 (60)
MONO PCB
DIGITAL PART
5.2.3 Structure of Player Script
VideoColDencOn (23a)
PICTURE TEST
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: this part of the player test will loop through
the list of nuclei indefinitely, till the player is reset. The list
of nuclei is as follows:
SOUND 1 TEST
SCART DVD TEST
AudioPinkNoiseOn (20a)
VideoScartSwDvd (55a)
VideoScartSwPass (55b)
AudioSineOn (21a)
SCART LOOP TEST
SOUND 2 TEST
MONO PCB(SERVO)
& BASIC ENGINE
VERSION NUMBER
TRAY TEST
BeVer (37)
•
•
•
•
•
PapChksFlash
PapI2cNvram
CompSdramWrR
PapS2bEcho
PapI2cDisp
BeTrayOut/In (43a/b)
SLEDGE TEST
DISC MOTOR TEST
FOCUS TEST
RADIAL TEST
JUMP TEST
BeSledgeOut/In (41a/b)
BeDiscMotorOn (39a/b)
BeFocusOn (38a/b)
At the beginning of the tests, the DSW version number will be
indicated on the local display of the DVD.
The display will look like the following:
BeRadialOn (40a/b)
BeGroovesIn/Mid/Out (42a/b/c)
BeTrayOut/In (43a/b)
CL 26532053_054.eps
150502
TRAY TEST
Figure 5-3
LogReadErr (31)
LogReadbits (32)
ERROR LOG & BITS
LOOP TEST
Pressing the PLAY key will proceed to the slave S/W version
display, which is shown on the local display of the DVD player.
The display will look like the following:
= Dealer script exclusive of test2
To exit player test,
disconnect from mains
CL 26532053_055.eps
150502
CL 16532162_030.eps
090102
Figure 5-4
Figure 5-5
Diagnostic Software, Trouble Shooting and Test Instructions
5.3 Display PCB
5.
KEY ID KEY
5.3.1 Display Test
0
1
2
3
4
5
6
7
E
F
PLAY
STOP
The display test is performed by nucleus DispDisplay. By
OPEN/CLOSE
STANDBY
NEXT
PREVIOUS
PAUSE
AUDIO DIRECT
SOUND MODE
REPEAT
putting a serie of test patterns on the local display, the local
display is tested. To step through all different patterns, the user
must either press OPEN/CLOSE (pattern is ok) or STOP
(pattern was incorrect) to proceed to the next pattern. The
display of patterns is continued in a cyclic manner, shown in
Fig. 5-6, until the user presses PLAY. If the user presses PLAY
before all display patterns are tested, the DispDisplay nucleus
will return FALSE (display test unsuccessful).
CL 26532105_057.eps
300802
Figure 5-8
If OK, press OPEN/CLOSE
If NOK, press STOP
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 PLAY key
on the local display of the DVD player for at least one full
second.
If OK, press OPEN/CLOSE
If OK, press OPEN/CLOSE
If NOK, press STOP
If NOK, press STOP
The result of the keyboard test is shown on local display as
follows:
press PLAY to continue
CL 16532162_031.eps
080102
Figure 5-6
CL 16532162_033.eps
080102
5.3.2 LED Test
Figure 5-9
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 OPEN/CLOSE, if it is not, press STOP. By pressing
PLAY the script will proceed to the next test. If the user presses
PLAY before OPEN/CLOSE or STOP, the DispLed nucleus will
return TRUE (LED test successful).
Or
5.3.3 Keyboard Test
CL 16532162_034.eps
080102
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 5-10
Pressing PLAY on the local keyboard again will proceed to the
next text.
5.3.4 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:
CL 196532162_032.eps
080102
Figure 5-7
The key-codes displayed on the local display will scroll from
right to left when the display gets full, the text "K" will remain
on display.
CL 16532162_035.eps
140102
Figure 5-11
In this example 23 is the hexidecimal code of the pressed RC
key. The user can leave the remote-control test by pressing
PLAY on the local keyboard of the DVD player. The remote
control test is successful if a code was received before the user
Diagnostic Software, Trouble Shooting and Test Instructions
EN 24
5.
pressed the PLAY key. Pressing the PLAY 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.
CL 96532065_013.eps
120799
Figure 5-13
Or
RC Key id
Hexadecimal code
STANDBY
0C
1
1
2
2
CL 96532065_014.eps
120799
3
3
Figure 5-14
4
4
5
5
Pressing PLAY on the local keyboard again will proceed to the
next test.
6
6
7
7
5.3.5 P50 Loop-Back Test
8
8
For the P50 loop-back test, the user must first press a key to
decide if the test is to be performed.
The display will show the following message:
9
9
0
0
RETURN
DISPLAY
DISC MENU
SYSTEM MENU
CURSOR UP
CURSOR DOWN
CURSOR LEFT
CURSOR RIGHT
OK
83
EF
54
82
58
59
5A
5B
5C
21
20
31
2C
30
4B
85
F7
4E
1D
3B
1C
2A
162 37
CL 16532007_004.eps
090102
Figure 5-15
If the user presses STOP, the P50 test will be skipped.
If the user presses OPEN/CLOSE, the P50 test is performed
and the result is displayed as follows:
Test successful:
PREVIOUS
NEXT
STOP
PLAY
PAUSE
SUBTITLE
ANGLE
ZOOM
CL 16532007_005.eps
090102
Figure 5-16
Test fails:
AUDIO
REPEAT
REPEAT A-B
SHUFFLE
SCAN
CL 16532007_006.eps
090102
Figure 5-17
080102
Press the PLAY key to continue to the next text
Figure 5-12
After pressing PLAY, the result of the remote control test is
displayed on the local display of the DVD player as follows:
Diagnostic Software, Trouble Shooting and Test Instructions
5.
The test can be left by pressing the PLAY key for more than
one second.
5.4 Mono PCB Digital Part
5.4.1 Picture Test
5.4.3 Sound 2 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 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:
The display will show the following message:
CL 96532065_015.eps
100102
CL 96532065_019.eps
100102
Figure 5-18
Figure 5-21
By pressing OPEN/CLOSE the user confirms the test, pressing
STOP will indicate the picture was invisible or incorrect.
Pressing PLAY will proceed to the next test. If the user presses
PLAY without pressing OPEN/CLOSE or STOP first, the result
of this test will be TRUE (picture ok).
After the audio signal has been stopped, by pressing OPEN/
CLOSE, the user confirms the test. Pressing STOP will indicate
that something went wrong. Pressing PLAY will proceed to the
next. If the user presses PLAY without pressing OPEN/CLOSE
or STOP first, the result of this test will be TRUE (sound ok).
Note: The colour bar must be simultaneously available on the
CVBS, YC, and RGB (or YUV) outputs available. On the
SCART only the CVBS and RGB signals will be available.
5.4.2 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:
CL 16532162_038.eps
080102
Figure 5-19
On the TV screen a colour bar (generated by nucleus
VideoColDencOn) is visible and the internally generated
pinknoise is audible.
By pressing the PLAY key, the user confirms the test. Pressing
the STOP key will indicate the sound was inaudible or
incorrect.
Note: Only for double scart models, SCART loop-through will
be simultaneously active during this test. SCART loop-through
will be measured with the aid of an external video source.
By pressing the PLAY key, there will be switched over to the
external source. This must become now visible on the TV
srcreen (using the SCART).
The local display will show the following message:
CL 16532162_039.eps
080102
Figure 5-20
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 OPEN/
CLOSE button, the internal generated colour bar becomes
visual again.
Diagnostic Software, Trouble Shooting and Test Instructions
EN 26
5.
5.5 Basic Engine
5.5.1 Version Number
In the basic engine tests, the version number of the Basic
Engine will be shown first, as the following example:
CL 16532162_043.eps
080102
Figure 5-25
By pressing OPEN/CLOSE the user confirms that the disc
motor is running. Pressing STOP indicates the disc motor does
not work. Pressing PLAY proceeds to the next test, after a reset
of the disc motor (nucleus BeDiscMotorOff). If the user presses
PLAY before pressing OPEN/CLOSE or STOP, the result of
this test will be TRUE (disc motor is running).
CL 16532162_040.eps
080102
Figure 5-22
By pressing the PLAY key, the Basic Engine tests are started.
5.5.5 Focus Test (Visual Test)
5.5.2 Tray Test
The fourth Basic Engine test tests the focussing. First
focussing is turned on by calling nucleus BeFocusOn.
The display will look as follows:
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:
CL 16532162_044.eps
080102
Figure 5-26
By pressing OPEN/CLOSE the user confirms that the
focussing was succesful. Pressing STOP indicates a focussing
failure. Pressing PLAY proceeds to the next test after a reset of
the focussing (nucleus BeFocusOff). If PLAY is pressed before
OPEN/CLOSE or STOP, the result of this test will be TRUE
(focus successful).
CL 16532162_041.eps
080102
Figure 5-23
By pressing OPEN/CLOSE 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 PLAY will proceed to the next
test. At this point, the tray will be closed automatically by the
software if it was open.
5.5.6 Radial Test (Visual & Listening Test)
The fifth Basic Engine test tests the radial functionality (nucleus
BeRadialOn).
The local display looks as follows:
5.5.3 Sledge Test (Visual Test)
The second Basic Engine test tests the sledge. The user can
move the sledge as many times as desired by using OPEN/
CLOSE (nucleus BeSledgeOut) and STOP (nucleus
BeSledgeIn). Pressing PLAY on the local keyboard proceeds
to the next test. Note that this test will not contribute to the test
result of the Basic Engine.
CL 16532162_045.eps
080102
The local display will look as follows during the sledge test:
Figure 5-27
By pressing OPEN/CLOSE the user confirms that the radial
function works.Pressing STOP indicates the function does not
work. Pressing PLAY proceeds to the next test, after a reset of
the radial (nucleus BeRadialOff). If the user presses PLAY
before pressing OPEN/CLOSE or STOP, the result of this test
will be TRUE (radial successful).
CL 165321625_042.eps
080102
Figure 5-24
5.5.7 Jump Test (Listening Test)
5.5.4 Disc Motor Test (Visual 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:
The third Basic Engine test tests the disc motor (nucleus
BeDiscMotorOn).
The local display looks as follows:
Diagnostic Software, Trouble Shooting and Test Instructions
5.
CL 16532162_046.eps
080102
CL 16532162_048.eps
080102
Figure 5-28
Figure 5-31
The user can switch between the three different types of
groove settings by pressing OPEN/CLOSE (forward to next
nucleus in the list In-Mid-Out), or STOP (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
PLAY proceeds to the next test, after the disc motor has been
shut off with a call to nucleus BeDiscMotorOff.
Only the identification number (decimal) representing set
errorbits will be shown. By pressing OPEN/CLOSE or STOP,
the user can move forward or backward (respectively) through
the logged errorcodes. If the display only shows "EB-0", no
error bits were set. By pressing PLAY the user can continue to
the next test.
5.6 Loop Test (See Table Below)
5.5.8 Tray Test
At the start of the loop test, the local display of the DVD player
will show the interactive player test result readout in the
following display:
As a last action for the Basic Engine tests, the tray test is
repeated. The local display will look as follows:
CL 16532162_041.eps
080102
CL 16532162_049.eps
080102
Figure 5-29
Figure 5-32
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
OPEN/CLOSE key. The tray will be closed (by the software, if
it is open) before proceeding to the next test when the user
presses the PLAY key.
The left side of the display contains a 3-digit code, which can
have a value between 000 and 111. These values indicate the
faulty modules and are to be interpreted as follows:
Displayed
Value
Indication for each module
5.5.9 Error Log (See Table on Page 25)
Basic Engine
Mono
PCB
ok
Display
PCB
ok
faulty
ok
faulty
ok
faulty
ok
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.
000
001
010
011
100
101
110
111
ok
ok
ok
ok
ok
faulty
faulty
faulty
faulty
faulty
faulty
ok
ok
faulty
faulty
The display during the errorlog readout looks as follows :
faulty
CL 96532065_031.eps
120799
Figure 5-33
CL 16532162_047.eps
080102
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. If
an error was detected, the display will remain as in figure 5-34
until the user presses the PLAY key and then it will continue to
the next loop.
Figure 5-30
Note: Previous versions of the diagnostic software showed a 8-
digit error code.
Due to limitations in the number of digits that can be displayed
by some front panel displays, the most significant digits will not
be shown. This can be done since all the error codes used by
this player has set these 2 digits to “00”
Example:
By pressing OPEN/CLOSE or STOP the user can move
forward or backward (respectively) through the logged error
codes. If "0000" is displayed at all positions, the error log is
empty. Display of the logged errors is done in a cyclic manner.
By pressing PLAY on the local keyboard, the user can proceed
to the next test.
CL 16532162_050.eps
080102
5.5.10 Error Bits
Figure 5-34
Reading the error bits is done by nucleus LogReadBits. The
display during the errorbits readout looks as follows:
The 2-digit number (23) on the right of figure 5-32 indicates the
number of times the loop test has been performed.
Diagnostic Software, Trouble Shooting and Test Instructions
EN 28
5.
After one loop cycle: Display the 3-digit module bits together
with the last error code which occured in the loop test. The 4
digits at the right side of the display (fig. 5-34) show the last
error that was found during the loop test. The leftmost two digits
(54) of this code indicates which nucleus resulted in a fault. The
rightmost two digits (03) refer to the faultcode within that
nucleus. For further explanation of this error code, refer to
chapter 5.8 (Nuclei Error Codes).
Error
Number Error name
Explanation
0103
S2B_SLEDGE Sledge could not be moved to
home position.
0104
0105
S2B_FOCUS Focus failure
S2B_MOTOR Motor could not reach speed
within timeout
0106
0107
0108
0109
010A
010B
010C
010D
010E
010F
S2B_RADIAL Servo didn't get on track after
several retries.
5.6.1 Errorlog
S2B_PLL_LO PLL could not lock in Accessing
CK
or Tracking state
Explanation:
The application errors will be logged in the NVRAM. The
maximum number of error bytes that will be visible is 16. The
first word (4 digits) of the byte is the component identification,
the last word is the error code.
The diagnostics software will present a combination of this
component identification plus an error code on the local display
(and on the attached terminal). The last reported error is shown
as < 00000000, the oldest visible error as 00000000 > and the
errors in between as < 00000000 >.
The devices that may report errors are the serial controller
(UART), the basic engine (BE), the slave processor (SLPH),
the SACD Stream Manager (SSM) and the SACD Media
Access (SMA). The identification of these components is as
follows:
SBC_HEADE Header timeout
R_TO
S2B_SBC_NO Requested subcode item could
T_FOUND
not be found.
S2B_TRAY
Tray could not be opened or
closed completely.
S2B_TOC_RE TOC could not be read within
AD
timeout period.
S2B_JUMP
Requested seek could not be
performed.
S2B_NON_EX Attempt to access a non-existing
IST_SES session.
S2B_NON_EX Caller tries to acces a non-
IST_BCA existing BCA area
Component name
Serial controller (UART)
Engine (BE)
Component identification
Speed setting A wrong or inappropraiate speed
value has been set
000A
0016
001A
001C
0116
011A
011B
NO_DISC
No disc selected
Slave Processor (SLPH)
TRAY_INIT
After reset, initialized tray
SACD Stream Manager
(SSM)
NO TOC INFO No TOC information in lead-in
area or erase TOC found
SACD Media Access (SMA)
Diagnostic software (DS)
002E
Dxxx
01F0
01F1
01F2
01F3
S2B_OVERR Too many bytes received over
UN
S2B Reason: see
S2B_ILL_COMMAND error
The tables in the next chapters list the error code and
corresponding problem. The column ‘Explanation’ holds a
more elaborate description and the most likely reason for the
error.
S2B_COMM_ Not enough bytes are received
TO
over S2B Reason: see
S2B_ILL_COMMAND error
S2B_PARITY Byte received with parity error.
Reason: see
Some Examples:
S2B_ILL_COMMAND error
002E0000 (SMA reported a timeout error)
0016010A (Engine could not fully close or open the tray)
D0010001 (Flash checksum failed).
S2B_ILL_PHA CMD IDC is not valid,
SE
transmission out of sync.
Reason: see
For further explanation of DS errors, see description of nucleui
error codes in paragraph 5.8.
S2B_ILL_COMMAND error
01F4
S2B_ILL_NR_ Byte count has an illegal value.
OF_BYTES
Reason: see
UART Error Codes
S2B_ILL_COMMAND error
Error
Number name
Error
SLPH Error Codes
Explanation
0000
0001
0002
BUF_OVE To many characters were offered in
Error
RFLOW
too little time. Reason: system was
too busy doing other jobs.
Number Error name
Explanation
0000
COMMUNICA Error in I2C communication.
COMMUNI Usually a protocol error. Reason:
TION
Reason: bad connection
between slave processor and
main processor.
CATION
bad connection between engine
and processor.
TIME OUT
SSM Error Codes
BE Errors
Error
Code
Error name
Explanation
Error
Number Error name
Explanation
0006
SP_SYNCER System cannot getsynchronised
ROR
with sectors coming from disc.
Reason: Usually a damaged
disc or the player was dropped/
pushed during operation. If not,
the engine is malfunctioning.
0101
S2B_ILL_CO Parameter(s) not valid for this
MMAND
command. Reason: some
communication problem
between UART and engine.
0102
S2B_ILL_PAR Command not allowed in this
0007
SP_EDCERR Data coming from disc is
OR
AM
state or unknown. Reason: see
S2B_ILL_COMMAND error
damaged. Reason: see
SP_SYNCERROR
Diagnostic Software, Trouble Shooting and Test Instructions
5.
SMA Error Codes
Error
Code
Error name
Explanation
Error
0008
0009
000A
SP_CONTINU Sequence of sectors coming
Number Error name
Explanation
ITYERROR
from disc is incorrect. Reason:
see SP_SYNCERROR
0000
SMA_TIMEO Data coming from disc not in
UTERROR
time. Reason: damaged disc or
engine problem.
DMX_CONTI Sequence of sectors is incorrect.
NUITYERRO Reason: problem with buffer
R
RAM
LLD_ERROR An illegal audio format was
offered to the decoder. Reason:
unknown audio type on disc or
problem with buffer RAM
000B
BCU_ERROR Internal problem in Furore chip
5.6.2 Reprogramming of New Mono Boards.
Caution
This information is confidential and may not be distributed. Only a qualified service person should
reprogram the mono board.
After reset of NV-memory or repair 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 is limited to 25 times
When the counter reaches 25, reprogramming is not possible anymore
Reprogramming will be done by way of the remote control.
Put the player in stop mode, no disc loaded.
Press the following keys on the remote control:
<PLAY> followed by numerical keys <1> <5> <9>
The display shows: “- - - - - - - - - - -”
Press now successively the following keys :
for DVD963SA /001
for DVD963SA 171
for DVD963SA 691
: <2><2><2> <0><1><2><0><0>
: <1><1><1> <0><1><0><0><0>
: <3><2><3> <0><1><0><0><0>
Press <PLAY> again.
The TV screen will become BLUE during a short time to confirm that the mono board has been
reprogrammed.
CL 26532105_053.eps
280802
Figure 5-35 Reprogamming code
Diagnostic Software, Trouble Shooting and Test Instructions
EN 30
5.
5.6.3 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.
TO ACTIVATE TRADE MODE
POWER ON
TO DEACTIVATE TRADE MODE
POWER ON
DURING STOP MODE AND W/O DISC.
PRESS REMOTE KEYS COMBINATION
DURING STOP MODE AND W/O DISC.
PRESS REMOTE KEYS COMBINATION
<PLAY> <259> <PLAY>
<PLAY> <259> <PLAY>
PLAYER IS IN TRADE MODE WHEN
PRESSING FRONT KEYS,
PLAYER IS IN NORMAL MODE WHEN
PRESSING FRONT KEYS,
THE PLAYER DOESN'T RESPOND
THE PLAYER WILL RESPOND
CL16532162_052.eps
0850102
Figure 5-36
Activation
Switch the player on and the following text will appear on the
screen of the terminal (program):
Note: To activate and deactivate the Trade Mode with the disc
in the player, the procedure is similar to above, except that the
remote control keys combination is pressed at the instant when
the local display is flashing “READING”
DVDv4 Diagnostic Software version 5.03
(M)enu, (C)ommand or (S)2B interface ? [M]:@ C <enter>
SDRAM Interconnection test passed
Basic SDRAM test passed
Slave Processor: SLAVE2
DD:>
CL 26532105_058.eps
020902
5.7 Menu and Command Mode Interface
5.7.1 Layout of Results Diagnostic Nuclei
Figure 5-37
Results returned from a Diagnostic Nucleus will be displayed in
the following layout:
< number >< string > [ok | ER]
The first line indicates that the Diagnostic software has been
activated and contains the version number. The second line
lets the user choose the interface format. Enter ‘C’ to select
Command Mode and the next three lines are the successful
result of the two subsequent basic tests (nuclei 2, ,4 and the
detection of the display type used by the panel respectively). If
not all these messages appear on the terminal screen, then the
related nucleus found an error. The last line is the prompt
("DD>"). The diagnostic software is now ready to receive
commands.
< number >: is a 4-digit decimal number padded with leading
zeros if its value is less than 4 digits. The first 2 digits identify
the generating nucleus (or group of nuclei) while the latter 2
digits indicate the error number.
< string >: is a text string containing information about the result
of the Diagnostic Nucleus.
Command Overview of Nuclei
< number > and < string > are defined in [SSD_DN] in the
output sections of each Nucleus.
The following table gives an overview of all available nuclei.
The first column contains an identification number, the second
contains the name of a nucleus and the last column indicate the
description of the nucleus.
Examples:
1. 0001Unknown command ER @
2. 3100OK @
Note: User confirmation is necessary during front panel tests
3. 0901Data line X is not connected to the DRAM ER@
Table 5-1 Basic diagnostic nuclei
5.7.2 Command Mode Interface
Ref. # Reference Name
Remark
1
BasicSpAcc
Serial port Access test/
initialization
Set-up Physical Interface Components
Hardware required:
•
•
•
Service PC
2a
BasicInterconDram Data and address bus
Interconnection (only for
one free COM port on the Service PC
special cable to connect DVD player to Service PC
development)
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).
2b
3
BasicInterconSdram Data and address bus
interconnection
BasicDramWrR
DRAM Write Read (only for
development)
4
BasicSdramWrR
SDRAM Write Read
Code number of PC interface cable: 3122 785 90017
Diagnostic Software, Trouble Shooting and Test Instructions
5.
Table 5-2 Processor and peripherals
Ref. # Reference Name
Remark
Sets DAC to DSD mode
DAC_LowPowerStandby Enable Low Power
On Standby
DAC_LowPowerStandby Disable Low Power
Off Standby
DAC_UpsamplingFreq19 Sets Upsampling
2k frequency to 192kHz
DAC_UpsamplingFreq96 Sets Upsampling
80d
81a
DAC_ModeDSD
Ref. # Reference Name
Remark
6
PapChksFl
Checksum FLASH
7a
PapUclkAclkCdda
uClock A_CLK in CD-DA
mode
81b
82a
82b
7b
7c
PapUclkAclkDvd
uClock A_CLK in DVD mode
PapUclkAclkDvd96 uClock A_CLK in DVD
(96kHz) mode
10
PapFlashWrAcc
FLASH Write Access (only for
development)
k
frequency to 96kHz
Enable upsampling
Disable upsampling
82c
82d
DAC_UpsamplingOn
DAC_UpsamplingOff
11
12
13
14
15
62
PapI2cNvram
PapI2cDisp
I2C NVRAM access
I2C Display PWB
S2B Echo
PapS2bEcho
PapS2bPass
PapNvramWrR
PapChksSum
Table 5-5 Video
S2B Pass-through
NVRAM Write Read
Ref. # Reference Name
Remark
17a
17b
23a
VidPortOutAA
Output the value 0XAA at
the Digital Video Interfac
e Port
Show checksums stored in
flash
VidPortOut55
Output the value 0X55 at
the Digital Video Interfac
e Port
Table 5-3 Components
Ref. # Reference Name Remark
VideoColDencOnPAL
VideoColDencOff
Colourbar (PAL) DENC
On
16
CompSdramWrR
SDRAM Write Read
23b
23c
Colourbar DENC Off
Table 5-4 Audio
VideoColDencOnNTSC Colourbar (NTSC) DENC
On
Ref. # Reference Name
Remark
24a
24b
VideoProgMPEGon
Progressive -
DigitalVideo Colour Bar
ON
19a
19b
20a
20b
AudioMuteOn
Audio Mute On
Audio Mute Off
Audio Pinknoise On
AudioMuteOff
VideoYuvMPEGon
Enhanced YUV-
DigitalVideo Colour Bar
AudioPinkNoiseOn
AudioPinkNoiseOff
AudioPinknoise(orbeep
tone) Off
25a
25b
25c
54
VideoScartLo
Scart Low
VideoScartMi
Scart Medium
Scart High
20c
21a
21b
56a
AudioBeepToneOn
AudioSineOn
Audio Beep Tone On
Audio Sine signal On/Off
Audio Sine signal Burst
VideoScartHi
VideoScartSwComm
Scart Switch
communication
AudioSineBurst
AudioLfePortHigh
Set the LFE_SEL port to
HIGH
55a
55b
VideoScartSwDvd
VideoScartSwPass
Scart Switch Dvd
Scart Switch Pass-
through
56b
66a
AudioLfePortLow
DAC_I2C
Set the LFE_SEL port to
LOW
57a
57b
57c
61a
61b
VideoScartPinLo
VideoScartPinMi
VideoScartPinHi
PIO-pins as used in 2A
for Scart-switching
Resets DAC and check
I2C communication with
DAC
PIO-pins as used in 2A
for Scart-switching
66b
66c
67a
DAC_I2CEnable
DAC_I2CDisable
DAC_ClockInternal
DAC_ClockExternal
Enable I2C
communication to AV
board
PIO-pins as used in 2A
for Scart-switching
VideoColOutRGB
(ST5508)
Output RGB from
ST5508
Disable I2C
communication to AV
board
VideoColOutYUV
(ST5508)
Output YUV from
ST5508
Uses internal clock from
monoboard for DAC
(256fs)
Table 5-6 Display (slave processor)
Ref. # Reference Name Remark
67b
68a
68b
Uses external clock for
DAC (384fs)
DAC_AudioPreMuteOn Enable Audio Pre-mute
pin
26
DispVer
Version number
Keyboard
27
DispKeyb
DispRc
DAC_AudioPreMuteOff Disable Audio Pre-mute
pin
28
Remote Control
LEDs
29
DispLed
69a
69b
79
DAC_CenterOn
DAC_CenterOff
DAC_Reset
Enable Center on pin
Disable Center on pin
Resets DAC
30a
30b
30c
60
DispDisplay
DispLCDisplay
DispLCDBkLight
DispP50
VFT Display test
LCD Display test
LCD Backlight test
P50 loopback test
80a
DAC_ModeCDDA
Sets DAC to CDDA
mode
80b
80c
DAC_ModeDVD48
DAC_ModeDVD96
Sets DAC to DVD mode
(48kHz)
Sets DAC to DVD mode
(96kHz)
Diagnostic Software, Trouble Shooting and Test Instructions
EN 32
5.
Table 5-7 Log (Error logging in Nvram)
Ref. # Reference Name Remark
84a
Furore_High
Sets Furore output pins
DSD_PCM0-9 to high
Ref. # Reference Name
Remark
31
32
33
LogReadErr
LogReadBits
LogReset
Read last Errors
Read errors Bits
Reset
84b
Furore_Low
Sets Furore output pins
DSD_PCM0-9 to low
Table 5-11 Karaoke (not available)
Ref. # Reference Name Remark
Table 5-8 Miscellaneous
Ref. # Reference Name
48a
48b
49
KaraokeModeOff Switch Karaoke mode off
KaraokeModeOn Switch Karaoke mode on
Remark
34
MiscReadConfig
Read Configuration area
from NVRAM
KaraokeMicInput
Check path from the
microphone input to audio
output
35
36
46
MiscNvramReset
MiscNvramMod
MiscApplVer
NVRAM Reset
Modify NVRAM contents
50a
50b
KaraokeKeyOn
KaraokeKeyOff
Set Karaoke Key to the
maximum level (1200 cent)
Read version of
application software
Set Karaoke Key to flat octave
(0 cent)
47a
47b
MiscTrayOpenNr
Read the number of
times the tray opened
51a
51b
KaraokeEchoOn
KaraokeEchoOff
Set Echo Control fuction on
Set Echo Control function off
MiscPowerOnTime
Read the total time the
player's power has been
on
47c
47d
MiscPlayTimeCddaVcd Read the Playtime of
CDDA and VCD discs
5.7.3 Menu Mode Interface
MiscPlayTimeDvd
Read the Playtime of
DVD discs
Activation
Switch the player on and the following text will appear on the
screen of the terminal (program):
Table 5-9 Basic engine
Ref. # Reference Name Remark
DVDv4 Diagnostic Software version 5.03
(M)enu, (C)ommand or (S)2B interface ? [M]:@ <enter>
37
BeVer
Version number
Focus On
SDRAM Interconnection test passed
Basic SDRAM test passed
Slave Processor: SLAVE2
38a
38b
39a
39b
40a
40b
41a
41b
42a
42b
42c
43a
43b
44
BeFocusOn
BeFocusOff
BeDiscmotorOn
BeDiscmotorOff
BeRadialOn
BeRadialOff
BeSledgeIn
BeSledgeOut
BeGroovesIn
BeGroovesMid
BeGroovesOut
BeTrayIn
Focus Off
Discmotor On
Press ENTER to go to main menu
CC: > <enter>
Discmotor Off
Radial control On
Radial control Off
Sledge Inwards
Sledge Outwards
jump Grooves to Inside
jump Grooves to Middle
jump Grooves to Outside
Tray In
MAIN MENU
1. Audio ...
2. Video ...
3. Front Panel ...
4. Basic Engine ...
5. Processor Peripherals ...
6. Error Log ...
7. Furore ...
8. Miscellaneous ...
CL 26532105_059.eps
020902
Select >
BeTrayOut
Tray Out
BeReset
Reset Basic Engine
CD Laser on
58a
58b
58c
58d
70
LaserCdOn
LaserCdOff
LaserDvdOn
LaserDvdOff
Figure 5-38 Screen menu
CD Laser off
DVD Laser on
DVD Laser off
The first line indicates that the Diagnostic software has been
activated and contains the version number. The next lines are
the successful result of the SDRAM interconnection test and
the basic SDRAM test. The last line allows the user to choose
between the four possible interface forms. If pressing M has
made a choice for Menu Interface, the Main Menu will appear.
BedReadFlashID Read flash memory
manufacturer and device ID
71
72
BedCalcRomChks Calculate ROM checksum
um
BedScratchTest
Test scratch detection circuit
Layout of Menu and Submenu
The following menu layout will appear after starting up the DVD
player in menu mode. The symbol “- - -”” indicates that the
current menu choice will invoke the display of a submenu. The
number between [ ] idicates the nucleus number. These
numbers will not be shown on the screen.
Table 5-10 Furore IC
Ref. # Reference Name Remark
63
Furore_SdramWrR Furore SDRAM Write Read
test
Menus
64
Furore_SdramWrR Furore SDRAM
Fast
interconnection test
Furore version ID check
Furore reset
MAIN MENU
65
83
Furore_Id
Furore_Reset
1
2
3
Audio...
Video...
Front Panel...
Diagnostic Software, Trouble Shooting and Test Instructions
5.
4
5
6
7
8
Basic Engine...
Processor Peripherals...
Error Log...
Furore...
Miscellaneous...
MAIN > AUDIO > SINE WAVE MENU
1
2
Audio Sine On
Audio Burst On
[21a]
[21b]
MAIN > AUDIO > DIGITAL PORTS MENU
No tets available
1
First Level Submenus
MAIN > AUDIO > EXT DAC BOARD MENU
MAIN > AUDIO MENU
1.
2.
3.
4.
5.
6.
DAC Reset
I2C Test...
Clock...
Audio...
Low Power Standby...
DAC Mode...
[79]
1
2
3
4
5
Mute...
Pink Noise...
Sine Wave...
Digital Ports...
Ext. DAC Board...
MAIN > VIDEO MENU
MAIN > VIDEO > COLOURBAR MENU
1
2
3
Colourbar...
Scart...
Digital Port...
1
2
3
4
5
6
7
Colourbar DENC On (PAL)
Colourbar DENC On (NTSC) [23c]
Colourbar DENC/MPEG Off
ProgressiveScan MPEG On
Enhanced YUV MPEG On
Set Video Out To RGB
[23a]
[23b]
[24a]
[24b]
[61a]
[61b]
MAIN > FRONT PANEL MENU
1
2
3
4
5
6
7
8
Slave Processor...
VFT Display
LCD Display
LCD BkLight
Keyboard
LEDs
Remote Control
P50 Check
Set Video Out To YUV
[30a]
[30b]
[30c]
[27]
[29]
[28]
MAIN > VIDEO > SCART MENU
1
2
3
4
5
6
I2C Scart IC Check
Scart To DVD
Scart Pass Through
Scart Pin 8 Low (0 to 2)V [25a]
Scart Pin 8 Mid (4.5 to 7)V [25b]
Scart Pin 8 Hi(9.5 to 12)V [25c]
[54]
[55a]
[55b]
[60]
MAIN > BASIC ENGINE MENU
1
2
3
4
5
Reset
Version
S2B...
Loader Mechanism...
Special Diagnostics...
[44]
[37]
MAIN > VIDEO > DIGITAL PORT MENU
1
2
3
Video Port Out 0xAA
Video Port Out 0x55
P-scan board IO exp
[17a]
[17b]
[17c]
MAIN > PROCESSOR PERIPHERALS MENU
MAIN > FRONT PANEL > SLAVE PROCESSOR MENU
1
2
3
4
Clock...
Flash...
NVRAM...
SDRAM Write/Read
1
2
Bus Comms Check
S/W Version
[12]
[26]
[16]
MAIN > BASIC ENGINE > S2B MENU
1
2
S2B Echo
S2B Pass-Through
[13]
[14]
MAIN > ERROR LOG MENU
1
2
3
Read Last Errors
Read Error Bits
Reset Error Log
[31]
[32]
[33]
MAIN > BASIC ENGINE > MECHANISM MENU
1
2
3
4
5
6
7
Disc Motor...
Laser...
Tray...
MAIN > FURORE MENU
1
2
3
4
5
6
SDRAM Write/Read
SDRAM Write/Read
Chip Revision ID
Set DSD_PCM Output High [84a]
Set DSD_PCM Output Low [84b]
[63]
[64]
[65]
Focus...
Radial...
Sledge...
Grooves...
Reset Furore IC
[83]
MAIN > BASIC ENGINE > SPECIAL DIAGNOSTICS MENU
1
2
3
Read FlashID
ROM Checksum
Scratch Circuit
[70]
[71]
[72]
MAIN > MISCELLANEOUS MENU
1
2
Statistics Info...
Read DVD Application version[46]
MAIN > PROCESSOR PERIPHERALS > PCM CLOCK MENU
Second Level Submenus
1
2
3
Ext PCM_CLK In CDDA Mode (11.3MHz)
Ext PCM_CLK In DVD Mode (12.3MHz)
Ext PCM_CLK In DVD96kHz Mode (24.6MHz) [7c]
[7a]
[7b]
MAIN > AUDIO > MUTE MENU
1
2
3
4
Mute On
Mute Off
[19a]
[19b]
MAIN > PROCESSOR PERIPHERALS > FLASH MENU
Mute Front LR On (963 only) [19c]
Mute Front LR Off (963 only) [19d]
1
2
Verify FLASH Checksum [6]
Show FLASH Checksum [62]
MAIN > AUDIO > PINK NOISE MENU
MAIN > PROCESSOR PERIPHERALS > NVRAM MENU
1
2
3
Pink Noise On
Pink Noise / Beep Tone Off [20b]
Beep Tone On [20c]
[20a]
1
2
3
I2C NVRAM Acces
NVRAM Config
NVRAM Reset
[11]
[34]
[35]
Diagnostic Software, Trouble Shooting and Test Instructions
EN 34
5.
4
5
NVRAM Modify
NVRAM Read/Wr Test
[36]
[15]
3
Jump To Outside Grooves [42c]
5.8 Nuclei Error Codes
MAIN > MISCELLANEOUS > STATISTICS INFO MENU
1
2
3
4
Total Nr Of Times Tray Open
Total Time Power On
Total Play-Time CDDA & VCD
Total Play-Time DVD
[47a]
[47b]
[47c]
[47d]
In the following tables the error description of the error codes
will be described.
5.8.1 Audio Nuclei
Third Level Submenus
Error
code
Error text
MAIN > AUDIO > EXT DAC BOARD > I2C TEST MENU
1.
2.
3.
I2C Test
I2C Enable Pin On
I2C Enable Pin Off
[66a]
[66b]
[66c]
1800
1820
1880
1900
1920
1940
1960
2000
2001
2020
2040
2041
2100
2101
2120
2121
6600
6601
6602
6603
6620
6640
6700
6701
6702
6720
6721
6722
6800
6801
6802
6820
6821
6822
6900
6901
6902
6920
6921
6922
7900
7901
7902
8000
8001
8002
8020
8021
8022
8040
8041
8042
Audio Deemp On OK
Audio Deemp Off OK
Audio Deemp Tri OK
Audio mute On OK
MAIN > AUDIO > EXT DAC BOARD > CLOCK MENU
Audio mute Off OK
1.
2.
3.
4.
5.
6.
Clock Internal
Clock External
Clock Upsampling 192k (963 only)
Clock Upsampling 96k (963 only)
Clock Upsampling On (963 only)
Clock Upsampling Off (963 only)
[67a]
[67b]
[82a]
[82b]
[82c]
[82d]
Audio Front LR mute On OK
Audio Front LR mute Off OK
Audio Pinknosie On OK
Audio Pinknoise On DAC fail
Audio Pinknoise Off OK
Audio Beep tone On OK
Audio Beep tone On DAC fail
Audio Sine On OK
MAIN > AUDIO > EXT DAC BOARD > AUDIO
1.
2.
3.
4.
Audio Pre-Mute On
Audio Pre-Mute Off
Audio Center On
Audio Center Off
[68a]
[68b]
[69a]
[69b]
Audio Sine On DAC fail
Audio Sine Burst OK
Audio Sine Burst DAC fail
DAC I2C OK
MAIN > AUDIO > EXT DAC BOARD > LOW POWER
STANDBY
1.
2.
Low Power Standby On
Low Power Standby Off
[81a]
[81b]
DAC I2C Bus busy
DAC I2C expander
DAC I2C DAC 4362
MAIN > AUDIO > EXT DAC BOARD > DAC MODE MENU
DAC I2C enable OK
1.
2.
3.
4.
DAC CDDA Mode
DAC DVD48 Mode
DAC DVD96 Mode
DAC DSD Mode
[80a]
[80b]
[80c]
[80d
DAC I2C disable OK
DAC Clk internal OK
DAC Clk internal I2C bus busy
DAC Clk internal I2C failed
DAC Clk external OK
MAIN > BASIC ENGINE > MECHANISM > DISC MOTOR
MENU
1
2
DAC Clk external I2Cbus busy
DAC Clk external I2C failed
DAC Audio pre-mute On OK
DAC Audio pre-mute On I2C bus busy
DAC Audio pre-mute On I2C failed
DAC Audio pre-mute Off OK
DAC Audio pre-mute Off I2C bus busy
DAC Audio pre-mute Off I2C failed
DAC Center On OK
Disc Motor On
Disc Motor Off
[39a]
[39b]
MAIN > BASIC ENGINE > MECHANISM > LASER MENU
1
2
3
4
CD Laser On
CD Laser Off
DVD Laser On
DVD Laser Off
[58a]
[58b]
[58c]
[58d]
MAIN > BASIC ENGINE > MECHANISM > TRAY MENU
1
2
DAC Center On I2C bus busy
DAC Center On I2C failed
DAC Center Off OK
Tray Open
Tray Close
[43b]
[43a]
MAIN > BASIC ENGINE > MECHANISM > FOCUS MENU
1
2
DAC Center Off I2C bus busy
DAC Center Off I2C failed
DAC Reset OK
Focus On
Focus Off
[38a] (load DVD first)
[38b]
DAC Reset I2C bus busy
DAC Reset I2C expander
DAC Mode CDDA OK
MAIN > BASIC ENGINE > MECHANISM > RADIAL MENU
1
2
Radial Control On
Radial Control Off
[40a] (load DVD first)
[40b]
DAC Mode CDDA I2C bus busy
DAC Mode CDDA I2C failed
DAC Mode DVD48 OK
MAIN > BASIC ENGINE > MECHANISM > SLEDGE MENU
1
2
Sledge Inwards
Sledge Outwards
[41a]
[41b]
DAC Mode DVD48 I2C bus busy
DAC Mode DVD48 I2C failed
DAC Mode DVD96 OK
MAIN > BASIC ENGINE > MECHANISM > GROOVES (Uses
DVD) MENU
1
2
Jump To Inside Grooves [42a]
Jump To Middle Grooves [42b]
DAC Mode DVD96 I2C bus busy
DAC Mode DVD96 I2C failed
Diagnostic Software, Trouble Shooting and Test Instructions
5.
Error
code
Error text
Error
code
Error text
8060
8061
8062
8100
8101
8102
8120
8121
8122
8200
8201
8202
8220
8221
8222
8240
8241
8242
8260
8261
8262
DAC Mode DSD OK
4210
“Subcode or sector information could not be
read”
DAC Mode DSD I2C bus busy
DAC Mode DSD I2C failed
4211
“Requested subcode item could not be
found”
DAC Low Power Standby On OK
DAC Low Power Standby On I2C bus busy
DAC Low Power Standby On I2C failed
DAC Low Power Standby Off OK
DAC Low Power Standby Off I2C bus busy
DAC Low Power Standby Off I2C failed
DAC Upsample 192k OK
4212
4213
4220
4221
4222
4223
4224
4225
“TOC could not be read in time”
“Seek could not be performed”
Test successful
“Parity error from Basic Engine to Serial”
“Unexpected response from Basic Engine”
“Communication time-out error”
“Basic Engine returned error number 0xXX”
DAC Upsample 192k I2C bus busy
DAC Upsample 192k I2C failed
DAC Upsample 96k OK
“Sledge could not be moved to home
position”
4226
4227
4228
4229
“Focus loop could not be closed”
“Motor not on speed within time-out”
“Radial loop could not be closed”
DAC Upsample 96k I2C bus busy
DAC Upsample 96k I2C failed
DAC UpSample On OK
“PLL could not lock in accessing or tracking
state”
DAC UpSample On bus busy
DAC UpSample On I2C failed
DAC UpSample Off OK
4230
4231
“Subcode or sector information could not be
read”
DAC UpSample Off bus busy
DAC UpSample Off I2C failed
“Requested subcode item could not be
found”
4232
4233
4240
4241
4242
4243
4244
4245
“TOC could not be read in time”
“Seek could not be performed”
5.8.2 Basic Engine Nuclei
Test successful
Error
“Parity error from Basic Engine to Serial”
“Unexpected response from Basic Engine”
“Communication time-out error”
“Basic Engine returned error number 0xXX”
code
3900
3901
3902
3903
3904
3921
3922
3923
3924
Error text
Test successful
“Parity error from Basic Engine to Serial”
“Unexpected response from Basic Engine”
“Communication time-out error”
“Basic Engine returned error number 0xXX”
“Parity error from Basic Engine to Serial”
“Unexpected response from Basic Engine”
“Communication time-out error”
“Basic Engine returned error number 0xXX”
“Sledge could not be moved to home
position”
4246
4247
4248
4249
“Focus loop could not be closed”
“Motor not on speed within time-out”
“Radial loop could not be closed”
“PLL could not lock in accessing or tracking
state”
4250
4251
“Subcode or sector information could not be
read”
3800
3801
3802
3803
3804
3805
3820
3821
3822
3823
3824
Test successful
“Requested subcode item could not be
found”
“Parity error from Basic Engine to Serial”
“Unexpected response from Basic Engine”
“Communication time-out error”
“Basic Engine returned error number 0xXX”
“Focus loop could not be closed”
Test successful
4252
4253
“TOC could not be read in time”
“Seek could not be performed”
4000
4001
4002
4003
4004
4005
4020
4021
4022
4023
4024
Test successful
“Parity error from Basic Engine to Serial”
“Unexpected response from Basic Engine”
“Communication time-out error”
“Parity error from Basic Engine to Serial”
“Unexpected response from Basic Engine”
“Communication time-out error”
“Basic Engine returned error number 0xXX”
“Basic Engine returned error number 0xXX”
“Radial loop could not be closed”
Test successful
4200
4201
4202
4203
4204
4205
Test successful
“Parity error from Basic Engine to Serial”
“Unexpected response from Basic Engine”
“Communication time-out error”
“Parity error from Basic Engine to Serial”
“Unexpected response from Basic Engine”
“Communication time-out error”
“Basic Engine returned error number 0xXX”
“Basic Engine returned error number 0xXX”
“Sledge could not be moved to home
position”
4400
4401
Test successful
Test successful
4206
4207
4208
4209
“Focus loop could not be closed”
“Motor not on speed within time-out”
“Radial loop could not be closed”
4100
4101
4102
4103
Test successful
“Parity error from Basic Engine to Serial”
“Unexpected response from Basic Engine”
“Communication time-out error”
“PLL could not lock in accessing or tracking
state”
Diagnostic Software, Trouble Shooting and Test Instructions
EN 36
5.
Error
Error
code
4104
4120
4121
4122
4123
4124
Error text
code
3041
3042
3043
Error text
“Basic Engine returned error number XX”
Test successful
“Disp not responding”
“Disp key no response”
“One or more patterns not correct”
“Parity error from Basic Engine to Serial”
“Unexpected response from Basic Engine”
“Communication time-out error”
2700
2701
2702
2707
2708
2709
2710
2713
2714
2715
2716
“Model name in wich the test is running”
“Disp key no response”
“Basic Engine returned error number XX”
“Disp not responding”
4300
4301
4302
4303
4304
4320
4321
4322
4323
4324
Test successful
“Stop key not pressed”
“Parity error from Basic Engine to Serial”
“Unexpected response from Basic Engine”
“Communication time-out error”
“Pause key not pressed”
“Play key not pressed”
“Open/close key not pressed”
“Previous key not pressed”
“Next key not pressed”
“Basic Engine returned error number 0xXX”
Test successful
“Parity error from Basic Engine to Serial”
“Unexpected response from Basic Engine”
“Communication time-out error”
“More than one key not pressed”
" Audio key not pressed"
“Basic Engine returned error number 0xXX”
2900
2901
2902
2903
“Test successful”
“Slave not responding”
“Slave keyboard not responding”
“Standby led not working”
3700
3701
3702
3703
3704
“Version: X.Y.Z”
“Parity error from Basic Engine to Serial”
“Unexpected response from Basic Engine”
“Communication time-out error”
2800
2801
2802
2803
“Test successful”
“Basic Engine returned error number 0xXX”
“Slave display controller not responding”
“Slave keyboard not responding”
“No key press received from remote control”
5800
5820
5840
5860
5801
7000
7001
7002
7003
7004
7100
7101
7102
7103
7104
7201
7200
7202
7203
7204
7205
Test successful
Test successful
Test successful
2600
“The ROM version of the slave processor =
0xXX, and the internal ID = 0xYY”
Test successful
2601
2602
“I2c bus busy”
"Unexpected response from Basic Engine"
"Manuf. ID: <XX>" "Device ID: <YY>"
"Comm Test Failed"
"Load Cmd Failed"
"Load Dat Failed"
“I2c bus not working“
6000
6001
6002
6003
P50 test
“No readback on P50”
“Disp not responding “
“P50 readback error”
"Run Cmd Failed"
"ROM Checksum: XXXX"
"Comm Test Failed"
"Load Cmd Failed"
"Load Dat Failed"
5.8.4 Processor & Peripherals Nuclei
Error
"Run Cmd Failed"
code
700
720
740
Error text
"Comm Test Failed"
"Test successful"
Test successful
Test successful
Test successful
"Load Cmd Failed"
"Load Dat Failed"
"Run Cmd Failed"
600
601
"All checksums are correct"
"Scratch circuit not OK"
“Following checksum is faulty: BootCode1
Checksum is 0xY2 and is not correct (must be
0xZ2)”
5.8.3 Display PWB Nuclei
601
“This test is not available when stand-alone
compiled”
Error
code
3000
3001
3002
3003
3004
3020
3021
3022
3023
3040
Error text
“Test successful”
6200
6201
"Checksums = 0xA1, 0xB1, 0xC1, 0xD1"
“Disp not responding”
“Disp key no response”
“One or more patterns not correct”
“Disp type invalid”
“This test is not available when stand-alone
compiled”
1000
1001
1020
1021
Test successful
Test successful
Test successful
Test successful
“Test successful”
“Disp not responding”
“Disp key no response”
“One or more patterns not correct”
“Test successful”
1100
Test successful
Diagnostic Software, Trouble Shooting and Test Instructions
5.
Error
code
Error
Error text
code
1500
1502
1504
Error text
1104
“NVRAM reply time-out”
Test successful
“NVRAM access time-out”
“NVRAM fails”
1200
1202
1203
1204
5900
5901
5902
5904
Test successful
“Slave bus not working”
“Slave controller not responding”
“Slave response is not correct”
Test successful
5400
5401
5402
5403
5404
Test successful
“I2c bus busy”
“I2c bus not working“
“I2c bus busy”
“Scart switch controller not responding”
“I2c bus not working“
“Scart switch controller response not correct”
“DTS chip response not correct”
5500
5501
5502
Test successful
“I2c bus busy”
1300
1301
1302
1303
Test successful
“Parity error from basic engine to serial”
“Parity error from serial to basic engine”
“I2c bus not working“
“No communication between serial and basic
engine”
5520
5521
5522
5523
Test successful
“I2c bus busy”
1304
“Communication time-out error”
“I2c bus not working“
“Scart switch controller not responding”
1600
1601
Test successful
“The DVD SDRAM is faulty”
5200
5201
5202
5300
5301
5302
5320
5321
5322
Test successful
“I2c bus busy”
5.8.5 Log Nuclei
“I2c bus not working“
Test successful
“I2c bus busy”
Error
code
Error text
“I2c bus not working“
Test successful
“I2c bus busy”
3100
3101
3102
3103
"Show error log"
"Error log is invalid"
"Error log could not be read from NVRAM"
"I2C bus busy before start"
“I2c bus not working“
4700
4701
“Number of times Tray went Open : XX”
3200
3201
3202
3203
"Show error bit"
The total number of times tray went open
could not be read from NVRAM.
"Error log is invalid"
"I2C bus busy before start"
"Error log could not be read from NVRAM"
4702
4720
4721
I2C bus busy before start
“Total Power On time (minutes) : XX”
The total power-on time could not be read
from NVRAM.
3300
3301
3302
"Error log is cleared"
"Error log could not be cleared"
"I2C bus busy before start"
4722
4740
I2C bus busy before start
“Total CDDA & VCD disks Play-time
(minutes) : XX”
5.8.6 Miscellaneous Nuclei
4741
The playtime of CDDA & VCD disks could not
be read from NVRAM.
4742
4760
4761
I2C bus busy before start
Error
code
3400
3401
Error text
“Total DVD disks Play-time (minutes) : XX”
Test successful
The playtime of DVD disks could not be read
from NVRAM.
“The configuration data could not be read
from NVRAM”
4762
I2C bus busy before start
3402
“I2C bus busy before start”
4600
4601
“Version of Application Software : XX”
3500
3501
3502
“NVRAM is cleared”
“The application version could not be read
from NVRAM.”
“The NVRAM could not be reset.”
“I2C bus busy before start”
4602
“I2C bus busy before start”
5.8.7 Video Nuclei
3600
“NVRAM contents updated.”
“NVRAM contents and configuration
checksum updated.”
Error
code
Error text
3601
3602
3603
3604
3605
“NVRAM contents could not be updated.”
“I2C bus busy before start”
1700
1701
1720
1721
2300
Video digital port OK
Video digital port failed
Pscan IO exp OK
“NVRAM contents could not be read”
“NVRAM not accessible.”
Pscan IO exp com failed
Video colourbar On OK
“NVRAM checksum could not be updated.”
Diagnostic Software, Trouble Shooting and Test Instructions
EN 38
5.
5.9 Test Instruction Front Display and Audio/
Video Board
Error
Error text
code
2301
2302
2320
2340
2400
2401
2402
2403
2404
2420
2421
2422
2423
2424
2460
2440
2441
2442
2443
2444
2500
2501
2502
2520
2521
2522
2540
2541
2542
6100
6120
Color Denc On transmit error
I2C Color Denc On bus busy
Video colourbar Off OK
Video colourbar On NTSC OK
ADV7300 com OK
These test instruction is designed specifically for SACD 2002
single disc models which has the following outputs:
•
•
•
•
•
•
•
6 Channel Audio output
Coaxial / Optical digital output
CVBS
Component output YUV
SVHS
I2C ADV7300 com bus busy
ADV7300 com transit error
No ack from ADV7300 com
ADV7300 com response error
FLI2200 com OK
Double SCART output
Front Display
5.9.1 General
I2C FLI2200 com bus busy
FLI2200 com transmit error
No ack from FLI2200 com
FLI2200 com response error
Proscan com OK
•
All the waveforms measurement carried out in these test
instruction will be base on the testpoint indicated in the
A/V Board and Front Display schematic diagram in the
Service manual.
•
•
Impedance of the measuring-equipment should be > 1MΩ
Most of the tests can be done using either the Diagnostic
software “ Player script” which can be found in the chapter
“Diagnostic Software description and troubleshooting” or
the Menu interface using the Service PC with a terminal
emulation program ( e.g. Window Hyperterminal ) where it
is possible to control the execution of the Diagnostic Nuclei
Setup for the measurement will be done in set level with all
modules connected as shown in the Wiring Block diagram.
ADV7190 com OK
I2C ADV7190 com bus busy
ADV7190 com transmit error
No ack from ADV7190 com
ADV7190 com response response
Video scart Low OK
•
I2C Scart Low bus busy
Scart Low transmit error
Video scart Mid OK
5.9.2 General Start-Up Measurement
I2C Scart Mid bua busy
Scart Mid transmit error
Video scart High OK
Supply Check:
Before starting the measurement,ensure that all power supply
are connected to the A/V and Front Display board via
conn.1420 and 1108 respectively.
I2C Scart High bus busy
Scart High transmit error
Video colour RGB OK
Pin nr. A/V Board
Front Display
Voltage Conn. 1420
Conn. 1108
Video colour YUV OK
1
+3V3_Power
+3V3_Power
GND
-
2
-
5.8.8 Furore Nuclei
3
-
4
+12V_Power
+12VSTBY
GND
-
Error
code
Error text
5
-
6
+5VSTBY
6300
6301
6302
6303
6320
6321
6322
6323
6400
6401
6402
6403
6420
6421
6422
6423
6500
6501
8300
8301
8400
8420
Furore Sdram WRR_L OK
Furore Sdram WRR_L DB fail
Furore Sdram WRR_L AB fail
Furore Sdram WRR_L DVC fail
Furore Sdram WRR_H OK
Furore Sdram WRR_H DB fail
Furore Sdram WRR_H AB fail
Furore Sdram WRR_H DVC fail
Furore Sdram WRR_F_L OK
Furore Sdram WRR_F_L DB fail
Furore Sdram WRR_F_L AB fail
Furore Sdram WRR_F_L DVC fail
Furore Sdram WRR_F_H OK
Furore Sdram WRR_F_H DB fail
Furore Sdram WRR_F_H AB fail
Furore Sdram WRR_F_H DVC fail
Furore ID OK
7
+5VSTBY
GND
+12V_Power
8
-32V_Power
9
-12V_Power
GND
-
-
-
-
10
11
12
-32V_Power
Clock Check
Ensure the present of the clock to the DAC and the slave µP.
Clock Name Testpoint Frequency
PCM_CLK I116
XOUT S1
11.2896MHz ± 0.02% tolerance
8MHz ± 0.2% tolerance
Audio Mute Check
Measure the Audio mute voltage input at pin 22 of connector
1421
Status
Value
Furore ID invalid
AudioMuteOn HIGH (>3V)
AudioMuteOff LOW (<3V)
Furore reset OK
Furore reset ID NOK
To toggle between ON and OFF,use the following commands:
Furore High OK
Command
Name
Furore Low OK
Ref.#
19a
Remarks
AudioMuteOn Audio Mute On
AudioMuteOff Audio Mute Off
19b
Diagnostic Software, Trouble Shooting and Test Instructions
5.
5.9.3 Audio DAC And Amplifier
Ref.# Command Name Remarks
25c VideoScartHi Sends out 12V ± 10%
5.9.6 Kill Circuit
Ensure that the Audio mute signal is OFF
To check the DAC and buffer amplifier,send the following
commands.
Ref.# Command Name Remarks
Audio output
21a
AudioSineOn
Audio Sine
signal ON
Sine,1Khz on
stereo
To check the functionality of the Kill circuitry,the audio outputs
has to be present by the following command:
----
Press stop button Audio Sine
signal OFF
No waveform
Command
Ref.# Name
Remarks
Audio output
20a
20b
AudioPinkNoiseOn Audio
Pink Noise on
21a AudioSineOn Audio Sinewave ON 1kHz tone
Pinknoise ON 6 channels
AudioPinkNoiseOff Audio No waveform
Pinknoise OFF
Check the audio outputs at the audio cinch of the A/V and
SCART board: 1kHz tone.
The audio signal ( sine or pink noise ) will also be present on
the digital output ( SPDIF ).This can be checked by connecting
digital signal to an amplifier with digital input.
Activate the Kill circuit by using the following command:
Ref.# Command Name Remarks
19a
AudioMuteOn
Audio Mute On
Check the I2S and audio signal at the following testpoints:
Name
Testpoint
I112
Check the audio outputs at the audio L/R cinch and SCART of
the A/V and SCART board respectively: No waveform
Switch off the kill circuit by using the following command:
PCM_LRCLK
PCM_SCLK
PCM_CLK
I114
I116
Ref.# Command Name Remarks
SDT1
I110
19b
AudioMuteOff
Audio Mute Off
SDT2
I106
Check the audio outputs at the audio L/R cinch and SCART of
the A/V and SCART board: 1kHz tone
SDT3
I102
DIG_OUT
I629
STEREO L/R OUT
FRONT L/R OUT
SURROUND L/R OUT
CENTRE OUT
SUB WOOFER L/R OUT
I510 / I520
I552 / I524
I533 / I536
I530
5.9.7 Digital Silence
Digital silence is a signal from the audio DAC7301 (MFL,MFR)
and DAC7300 (MSR/MC),when there is no input to the audio
DAC, or when the player is in STOP/PAUSE mode, or during
disc changing track.
I527
All waveforms can be refered to the A/V board schematic
diagram.
To check the MFL signal, use the following command and
check the voltage level at pin 41 of 7200:
5.9.4 Video Output And Buffer Amplifier
Command
Ref.# Name
Remarks
KILL_LR signal
Check DC output-level at all video cinch output : 1.0V DC ±
10%
Generate a color bar using the following software commands:
21a
AudioSineOn Audio Sinewave LOW (<0.3V)
ON
---
Press STOP
button
Audio Sine
signal OFF
HIGH (>4.5V)
Ref.# Command Name Remarks
23a
23b
VideoColDencOn Colour DENC ON
5.9.8 Front Display
VideoColDencOff Colourbar DENC OFF
To check the segment display of the FTD, the following
command can be used. And for full detail description of the test,
refer to the chapter of “Diagnostic Software Player Script”
which can be found in chapter “Diagnostic Software
Description and Troubleshooting”
Check the video outputs at the following testpoints:
Name
Testpoint
I601
GREEN_SCART
BLUE_SCART
RED_SCART
CVBS out_Mono
C_Mono
I600
I602
Ref.# Command Name
30a DispDisplay
Remarks
I662
Turn ON local display
I675
5.9.9 IR Receiver
Y_Mono
I667
ll waveforms can be refered to the A/V board schematic
diagram.
Check at pin 22 of 7401 and observe if this line switches from
LOW (<0.3V) to HIGH (>4.5V) when pressing a key on a philips
RC5 or RC6 remote control
5.9.5 Play and 16/9 Detection
5.9.10 P50 Interface
Check DC voltage at S-VIDEO-CHROMA output (pin 4) with a
6k8 ohm load and SCART connector 1403 (pin 16) and change
the SCART0 and SCART1 input using the following
commands:
P50 (or Easylink) is a bi-directional serial interface for
communication between video equipment. To check for the
functionality of the P50 Interface, refer to the chapter of
‘Diagnostic Software Player Script’ for full detail description.
Ref.# Command Name Remarks
25a
25b
VideoScartLo
VideoScartMi
Sends out 0V ± 0.5V
Sends out 6V ± 10%
Block and Wiring Diagram.
DVD963SA
6.
41
6. Block and Wiring Diagram.
Block Diagram DVD963SA
TV SCART
AUX SCART
1000
1000
1001
P. SCAN BOARD
1203
7300
7500
12V
8V
+2V5
LF25C
7201
PCF8574
7501
AV Switch
Matrix
12V
7301
+1V8
7103
LF18ABT
+3V3D
YB(0-9)
DAC_D
Y
FLEX 22P
YA(0-9)
GENERAL BLOCK DIAGRAM FOR DVD963SA
UVA(0-9)
+5VM
-5V
7302
7303
7202
7100
FLI2301
DAC_E
U
V
+12VSTBY
DOUBLE
ADV7300
7101
MT48LC2M32TG-8
P_HSYNC
P_VSYNC
SCART BOARD
DAC_F
1300
1003
FLEX 22P
1403
I2C
SERVICE SERIAL
INTERFACE
AV BOARD
MERCURY 2 LOADER
VAL6011/14
CDM
OPU
5-DISC CHANGER INTERFACE
SD4.00SA_CH MONOBOARD
M1
1500
+5V_Power
+12VSTBY
+8V
1900
TXD_SER
M2
M6
M7
RXD_SER
RTS_SER
CTS_SER
VSYNC
HSYNC
27M_CLK
SERVICE
7621
7622
7623
CD-LASER
7105
7624
7625
7501
OPTION
M5
7626
7402
DVDALAS2+
TZA1033HL
DIGITAL YUV
74HCT14D
7601
STi5580
4
DIODE
7631
HFN,HFP
SCART [0:1]
2
SCART[0:1]
AMPLIFIERS
DVD
1401-B
1409
S2B
I2S
TXD_S2B
/
RXD_S2B
/
CFR_S2B SUR_S2B
/
PROGRAMMABLE
I/O
UART UART
OSD
CVBS
4
4
MUTE
MUTE
CVBS
YUV
PCMDATA
PCMCLK
PCMSCLK
PCMLRCLK
SPDIF
0
BE_V4
PCMDATA0 / PCMCLK / PCMLRCLK / PCMSCLK
PCM (4X)
DIG. OUT
Header
Land
BE_SYNC
BE_FLAG
BE_DATA
BE_BCLK
BE_WCLK
MUTE
AUDIO
AUDIO
DECODER
4
7634/7637/7640
5
7720
DVD-LASER
SPDIF
R/V;G/Y;B/U
6
7412
NCP301LSN27T1
SERVO
CONTROL
SERVO
SIGNALS
R_OUT
G_OUT
CVBS /
Y
VIDEO
1
RGB YUV
/
FRONT END
INTERFACE
B_OUT
MPEG
DECODER
VIDEO
ENCODER
AV
/
SUB
C_OUT
S-VHS
6
CD
CVBS_OUT
Y_OUT
DEMULTIPLEXER
R/V ;G/Y ; B/U ;CVBS/Y ;Y/C
VIDEO
FLEX 24P
6
I2C
6
FILTER
BUFFER
RESET
4
SUBPICTURE
7632/7634
7627-7629
1408
RESETn
HOST
uP ST20 CPU
CALF_MACE
Y/C
4
SVHS
+3V3
+5V
+12V
O_CENTRAL
STB_DALAS
KARAOKE
CLK_STBCTRL
7200
7620/7630
SDA
SCART 0
SCART 1
SCLK
I2C
SILD
SICL
SIDA
FOCUS
RADIAL
I2C
CONTROLLER
0/6/12
NCP301LS45TN
SDRAM CONTROLLER
MEMORY INTERFACE
LASER
CONTROL
2
SERIAL
INTERFACE
RESET
RSTN
M4
7106
7400
DISK MOTOR
PCM_CLK
32Kb
M3
7300
BA6665FM
HALL-FEEDBACK
DRIVE
7402
7403
EEPROM
M24C64
MCLK1
7201
7202
M
1102
16Mb FLASH
( SO44 )
FLEX 11P
FLEX 8P
TO 7303
DRIVEMUTE
7105
HALL
7500
M5
M9
384FS
MOTOR-IC
CLOCK
27MHz OSC
OPTION
64Mb SDRAM
(TSOP 54 )
TACHO-OUT
GENERATOR
WITH BUFFER
( PLL )
SLEDGE MOTOR
CLK_SEL
192K_96K
SPDIF_MUTE
3
1101
AD1895_CLK
24.576M
7107
IO EXPANDER
7207
IGUANA
SAA7812HL
MOTO-IN
MT48LC4M16A2TG
M
1
16Mb FLASH
( SO44 )
RES_P
BLOCK
RSTN
HALL
CLK_STBCTRL
CENTRE_ON
(
7301
STEREO
M8
M10
PCS-PRE-AMPL
LM833D
7521/7523
7201
7202/7203
CHANNEL
DECODER
DECODER/ENCODER
L
R
1401-A
TRAY MOTOR
384FS
I2S
2
2
CONTROL
REGISTERS
M
4
CSS
MODULE
AUDIO_CLK
CPU
INTERFACE
7525
7527
7000
RESETn
RFP
FRONT
END-SWITCH
SDT1
BCLK
LRCLK
7200
7301
DAC
7303/7304
7501
I2C
L
R
DRIVERS
7201
SAMPLE
RATE
7303
7800
FURORE2
SAA7893HL/C1
BA5938FM
1402-C
uPROCESSOR
SERVO
ADC
SLEDGE
RADIAL
FOCUS
DSD_PCM11
9
CONVERTER
2
MFL
MFR
C / SW
AUDIO DSD / PCM
7531
7529
TRAY SW
C
SW
CDATA/CCLK/CLATCH
7502
1402-B
4
5
7208
M5
SDT2
SDT3
7300
DAC
64Mb SDRAM
(TSOP 54 )
8.46 MHz
TRAY1
TRAY2
UDA [0-7]
UA [0-17]
FLASH ROM
M29F002
MT48LC4M16A2TG
4
4
MCLK1
MUTE
DRIVEMUTE
1
MSR
MC
SPDIF
I2C
7533
7535
SURROUND
7502
L
R
8
1402-A
FRONT PCBAS
12
1108
P50
+5VSTDBY
+12V_POWER
-32V_POWER
7536-7541
MAINS
INPUT
P50
POWER SUPPLY
MUTE
24.576M
7101
OUT_P50
IN_P50
GRID
7401
1111
FTD DISPLAY
7203
uprocessor
SDATA
7207
7604
SEGMENT
TMP87CH74
DIGITAL
AUDIO TX
AK4103
CLOCK
GEN
STANDBY PCBAS
BCLK
LRCLK
7204/7205
OPTICAL
1410
SPDIF_MUTE
TACT SWITCH
5607
ON_OFF A/B
1201
6200
UPSAMPLING
IR
+3V3_POWER
+5VSTDBY
+12VSTBY
+12V_POWER
- 12V_POWER
- 32V_POWER
4
STDBY_LED CTRL
DIGITAL OUT
COAXIAL
7402
LED
CL 26532105_027.eps
191102
Block and Wiring Diagram.
DVD963SA
6.
42
Wiring Diagram DVD963SA
BLUE Scart
SCART_L
GND
C_Scart
1
9
17
BLUE Scart
SCART_L
GND
C_Scart
18 0|6|12
AMUTE
1
9
17
GND
10
18 0|6|12
AMUTE
2
GND
10
2
GREEN Scart
1 1 +5V_Power
19
3
4
5
6
GREEN Scart
1 1 +5V_Power
1 2 SCART_R
1 3 +12VSTBY
1 4 -8V
19
3
4
5
6
7
8
1 1
2 1
GND
1 2 SCART_R
1 3 +12VSTBY
1 4 -8V
20 SCL_5V
2 1 SDA_5V
1
GND
+12V_Power
SCL_5V
SDA_5V
SCART1
SCART0
GND
20 SCL_5V
2 1 SDA_5V
RED Scart
GND
12 Y_Mono
13 GND
22 MUTE
2
RED Scart
GND
P50
23 DGND
22
3
4
5
6
P50
22
C_Mono
15 GND
16
Y Scart
GND
1 5 CVBS_Scart
1 6 GND
14
24
7
8
Y Scart
GND
1 5 CVBS_Scart
1 6 GND
25
GND
1 1
2 1
1
DGND
DGND
BLUE_U
GND
26 DGND
DGND
CVBSOUT_Mono
1403
22P Flex Cable Connector
1 2 SEL1
1 3 DGND
22 SCL_5V
23 SDA_5V
17 +3V3_Power
18 +3V3_Power
27
28
22P Flex Cable Connector
2
3
4
5
6
7
8
384 FS
DGND
7
8
1300
GREEN_Y
GND
1
1
22
22
SCL_5V
1
SDT1
SEL3
1 4
1 5 DGND
1 6
24
19
9
DGND
9
+5V_Power
2
DGND
DGND
2
+5VSTBY
1
+3V3_Power
7
25
20 +12V_Power
30 DIG_OUT
DGND
SDT3
10
RED_V
SDA_5V
3
4
5
6
7
8
SCART SWITCH
8
GND
26
27
28
2
+3V3_Power
GND
LRCLK
DGND
STDBY_CTRL
P50
9
-12V_Power
GND
DGND
SEL2
17 DGND
18 BCLK
1421
3
4
5
6
30P Flex Cable Connector
**ONLY FOR EU MODELS
10
+12V_Power
+12VSTBY
GND
1
CCLK
30
+5VSTBY
+12V_Power
-32V_Power
1 1
-32V_Power
STDBY_CTRL
DGND
19
9
CDATA
9
DGND
2
CLATCH
12
20 PCM_CLK
30
10
SDT2
1420
Mains Cord
1400
30P Flex Cable Connector
1422
8P MIS
AV BOARD
1
30
1
8
PSCAN
BOARD
1013
30P Flex Cable Connector
1703
30
30P Flex Cable Connector
1
30
1
1 1
2 1
1
GND
+12V_Power
1 1 DGND
2 1 DGND
SCL_5V
SDA_5V
SCART1
SCART0
1
DGND
1
2
3
4
5
6
7
8
9
+5VD
YB(3)
GND
YB(2)
GND
YB(1)
17
18
19
20
21
22
GND
YB(7)
GND
GND
1 2 Y_Mono
1 3 GND
22 MUTE
23 DGND
24
SEL1
DGND
SDT1
SCL_5V
SDA_5V
2
384 FS
DGND
12
13
14
15
2 2
2 3
2 4
2 5
2
3
4
5
6
7
8
10
11
12
27M_CLK
GND
3
4
5
6
7
8
C_Mono
1 4
1 5 GND
1 6
SEL3
DGND
PSU
YB(6)
HSYNC
25
DGND
GND
DGND
SDT3
+3V3D 13
YB(5) 14
+3V3D 15
VSYNC_MONO
SCL_5V
SDA_5V
GND
BLUE_U
GND
26 DGND
27
CVBSOUT_Mono
16 LRCLK
2 6 DGND
27
17 +3V3_Power
18 +3V3_Power
DGND
SEL2
DGND
BCLK
17
18
GND
23
24
GREEN_Y
GND
28
2 8
GPIO2
GPIO3
GPIO1
YB(4)
16
YB(0)
19
20 +12V_Power
9
DGND
1
+3V3_Power
DGND
9
+5V_Power
2
19 DGND
PCM_CLK
9
9
2
30 DIG_OUT
10
RED_V
2
+3V3_Power
GND
SDT2
20
30
10
3
4
5
6
+12V_Power
+12VSTBY
GND
1
24
1
2
3
4
5
6
7
8
9
YB(0)
GND
YB(1)
GND
YB(2)
GND
17
18
19
20
21
22
GND
YC(4)
SDA_5V
SCL_5V
10
11
12
13
14
15
16
+3V3PS
YC(5)
+3V3PS
YB(6)
7
8
+5VSTBY
GND
VSYNC
HSYNC
GND
9
-12V_Power
GND
10
GND
1 1 -32V_Power
27M_CLK
GND
YB(3)
+5VD
23
24
YB(7)
12
STDBY_CTRL
GND
12P HR PH
0201
SD4.0SA MONO BOARD
24
1704
1
12
1000
1
SCL_5V
1
DGND
2
1
+5VSTBY
SDA_5V
3
4
5
6
7
8
1
+5VSTBY
4p
STDBY_CTRL
ON_OFF_A
ON_OFF_B
2
STDBY_CTRL
P50
STDBY_CTRL
ON_OFF_A
ON_OFF_B
2
3
4
3
4
+5VSTBY
+12V_Power
-32V_Power
1100
1200
DISPLAY BOARD
1108
CL 26532105_001.eps
270802
STANDBY BOARD
Block and Wiring Diagram.
DVD963SA
6.
43
Testpoint Overview A/V Board
I100 B11
I101 B11
I102 B10
I103 B11
I104 B10
I105 A10
I106 B10
I107 B10
I108 B10
I109 D7
I115 C8
I116 B10
I117 B9
I118 B9
I119 B9
I120 B11
I121 B11
I122 B9
I124 B17
I126 B18
I127 B18
I128 B18
I129 B18
I130 D12
I131 C11
I132 D11
I133 C10
I134 C10
I135 D11
I136 C10
I137 D11
I140 B8
I149 B11
I150 B9
I151 B9
I152 B9
I154 C11
I156 C11
I158 B13
I159 C13
I200 C8
I201 C8
I202 C8
I203 C8
I207 C8
I208 D9
I209 D10
I212 E10
I214 C10
I215 D8
I216 D8
I217 D8
I218 D8
I219 D10
I220 E10
I222 D9
I223 D9
I224 D9
I225 D9
I304 F1
I305 F3
I306 D2
I307 D2
I308 C3
I309 D3
I310 C5
I311 C5
I313 D5
I314 C5
I317 E4
I318 C5
I320 D5
I321 B7
I322 C7
I323 C6
I324 B5
I325 B5
I326 B7
I404 E9
I405 E16
I407 F7
I408 F8
I409 F8
I410 E16
I411 C6
I412 D6
I413 D5
I414 E6
I416 D5
I417 D5
I418 C7
I419 D6
I420 D6
I421 E6
I423 D6
I424 D7
I425 F6
I426 E6
I427 E7
I428 C5
I429 C5
I430 D5
I431 D5
I432 E5
I433 D5
I434 E5
I435 C6
I436 D6
I437 C7
I438 D5
I439 D6
I440 D7
I441 E7
I442 D6
I443 E6
I444 D7
I445 D6
I501 D4
I502 E3
I504 C4
I505 E1
I506 D4
I507 D5
I508 D4
I509 D4
I510 F9
I512 D3
I513 D4
I514 E2
I515 E2
I516 E2
I517 E2
I518 F3
I519 F2
I520 F9
I521 E8
I522 F6
I524 F6
I526 D5
I527 F5
I529 E5
I530 F5
I532 F4
I533 F4
I535 F3
I536 F4
I539 D4
I541 E4
I542 D4
I543 E4
I544 E5
I545 E4
I546 E4
I547 E4
I550 E5
I552 E7
I553 E7
I564 F3
I565 E4
I566 E5
I567 F5
I568 E6
I569 E7
I570 E9
I571 E9
I600 D16
I601 E16
I602 E16
I603 E16
I604 E15
I605 E15
I606 B16
I607 E15
I608 B17
I609 B18
I610 B18
I611 F17
I613 C16
I614 C15
I615 E12
I616 E12
I617 E13
I618 E14
I619 E15
I620 D14
I621 D13
I622 C14
I623 B15
I624 E16
I625 B15
I626 E10
I627 C19
I628 C14
I629 C13
I630 B13
I631 A13
I632 B4
I634 B3
I635 B2
I636 B2
I637 E16
I638 B13
I639 B13
I640 B2
I641 B1
I642 C2
I643 C1
I644 C2
I645 D2
I646 C18
I650 C16
I651 E15
I652 E15
I653 E15
I654 E15
I655 C15
I656 C16
I657 E10
I658 D2
I667 F14
I668 E15
I669 F15
I670 F14
I671 E11
I672 E11
I673 F11
I674 E13
I675 F15
I676 F12
I677 E12
I678 E13
I679 E13
I680 E13
I681 E13
I682 E18
I683 E18
I684 E19
I685 F19
I686 F17
I687 F19
I688 E18
I689 E18
I691 B2
I692 C2
I693 F14
I694 E12
I695 B15
I696 F12
I697 E7
I698 D8
I700 F10
I701 E14
I702 E11
I703 E12
I704 E13
I327 D7
I330 C8
I331 C7
I332 C7
I333 E6
I334 C7
I335 E7
I336 E7
I339 B8
I340 B8
I341 B9
I400 F9
I401 E7
I403 E8
I141 B9
I142 B9
I659 E1
I660 F10
I661 F10
I662 F10
I663 F10
I664 E15
I665 E14
I666 E14
I143 C13
I144 A13
I145 C12
I146 D12
I147 C12
I148 C13
I110 B10
I111 B10
I112 B10
I113 B4
I114 B10
I633 C12
CL 26532105_013.eps
020902
Block and Wiring Diagram.
DVD963SA
6.
44
Testpoint Overview Display Panel
I100 C22
I101 D22
I102 D22
I108 A5
I113 D7
I114 C17
I115 A11
I116 B2
I117 C8
I118 B10
I119 B11
I120 A11
I121 A10
I122 C13
I123 B11
I124 C13
I125 A7
I126 D1
I127 B4
I129 A7
I130 A13
I131 A13
I132 A12
I133 A12
I134 A12
I138 A12
I139 A11
I140 A13
I141 A17
I142 A16
I143 A16
I144 A16
I145 A16
I146 A16
I147 A13
I148 A13
I149 A16
I150 A18
I151 A17
I152 A17
I153 A18
I154 A18
I155 A17
I156 A18
I157 A18
I158 A17
I159 A7
I160 A7
I161 A7
I162 A17
I163 B17
I164 B18
I165 C22
I166 C21
I180 A14
I181 A15
I182 A20
I183 C6
I184 C6
I185 C3
I186 B20
I187 C12
I188 C12
I189 C12
I190 B22
I191 C21
I192 B21
I193 A22
I194 C11
I195 A6
I196 A6
I135 A13
I136 A12
I137 A12
CL 26532105_017.eps
020902
Block and Wiring Diagram.
DVD963SA
6.
45
Testpoint OverviewP-Scan Board
I100 F13
I101 E13
I102 E12
I103 G11
I104 F14
I105 G14
I106 D3
I107 C4
I108 E3
I201 F15
I203 F15
I207 E15
I208 D16
I209 G4
I210 E15
I211 E15
I212 D15
I213 D15
I214 D15
I215 D15
I216 D14
I217 E15
I218 F14
I219 E15
I220 B3
I221 D3
I222 C3
I223 E5
I224 D15
I225 E16
I300 B3
I301 C2
I302 F4
I303 D3
I304 G4
I305 C3
I306 E5
I307 G4
I308 F2
I309 G4
I310 C2
I311 E3
I312 D2
I313 D2
I314 D3
I315 F3
I316 F2
I317 F2
I318 E3
I319 D6
I320 C3
I321 D3
I322 E3
I323 G13
CL 26532105_023.eps
121102
Electrical Diagrams
DVD963SA
7.
46
7. Electrical Diagrams
Power Supply Unit DVD963SA
1
2
3
4
5
6
8
9
10
11
12
13
7
2190
1n
Super Audio Cd Wide Range High End
FOR INFORMATION ONLY. (NO SERVICE PARTS WILL BE AVAILABLE)
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
3111
1110
5190
9
13
14
6270
3270
22K
VALUE
t
VPOS
F101
B57153
F105
F106
BAV21
2251
F102
0102
VA
5115
VREG
2
1
2n2
6250
6110
5255
2u2
F250 F251
S1NB80
3127
CU15D3
+5V
F103
F104
STTH302
F108
F107
3255
3R3
3256
6256
7
15
17
7125
STP3NC60FP
VFB
6114
0125
Heatsink
0103
2112
33n
330R
3126
3R3
3257
1N4004
6125
F109
BZX384-C15
6210
6215
5216
22u
F210 F211
33R
3125
3R3
1N4148
+12STBY
+12V
F111
F112
3214
10K
STTH302
1N4004
VPOS
7210
4K7
2211
100n
3212
33K
SI2302DS
STBYCONTROL
16
6216
F215
F212 F213 F214
5215
6u8
0104
SWITCH
3216
10K
1N4004
STBYCONTROL
F110
7212
BC847B
7211
BC847B
5230
11
12
10
18
F230
F231 F232 F233
+3V3
10u
6230
Fprot
3230
1K
STPS745F
6131
3
3134
SWITCH
1N4004
6130
3133
22K
6280
2
1
5285
22u
F280 F281
-12V
BAV21
BYD33D
7280
BC337-40
3281
6240
3135
2K2
100K
7281
BC857B
BYD33J
7130
TY72011P2
CT282D4
0200
EH-B
0201
EH-B
3282
2K2
3283
4K7
1
2
3
4
5
6
7
14
1
2
3
4
5
6
7
1
2
+3V3
+3V3
SWITCH
5245
HV
NC5
13
F240 F241
NC1
DEMAG
FB
VCC
-32V
F227
12
3
+5V
DRIVE
11
4
7240
BC337-40
F291
F292
+12V
ISENSE
GND
10
9
5
+12STBY
3241
100K
CT
7141
BC847B
7190
TCET1102G
6
OVP
NC2
NC4
6298
0203
0204
8
7
+12V
+5V
-12V
-32V
NC3
Fprot
7241
BC857B
BAS216
8
F224
9
F220
F221
F222
F223
F225
F226
3242
2K2
3243
10K
SWITCH
10
11
12
2292
3292
270R
47n
STBYCONTROL
F228
1
7290
TL431CZ
3
2
J
J
CL 26532105_004.eps
020902
7
1
2
3
4
5
6
8
9
10
11
12
13
Electrical Diagrams
DVD963SA
7.
47
AV-Board: Clock & Control
1100 C5
1101 B9
1102 C5
1200 G1
1400 B1
1422 H1
2100 A5
2101 A4
2102 C2
2103 C2
2104 E2
2105 D5
2106 D6
2107 E2
2108 H5
2109 H8
2110 B6
2111 E7
2112 B8
2113 A10
2114 B9
2115 B10
2116 F13
2117 C12
2118 D6
2119 D4
3100 C2
3101 C2
3102 C2
3103 D2
3104 D2
3105 D2
3106 E2
3107 E2
3108 E2
3109 F8
3110 A4
3111 B5
3112 C5
3113 F8
3114 F9
3115 F9
3116 F9
3117 H8
3118 H7
3119 I7
3120 D9
3123 F8
3124 G11
3125 G12
3126 G12
3127 H11
3128 E13
3129 B9
3130 B10
3131 G11
3132 H11
4100 F2
4101 F2
7100-A B5
7100-B C7
7100-C B6
7101-A A5
7101-B A7
7101-C B4
7102-A B8
7102-B C7
7103-A A10
7103-B A12
7103-C A9
7105-A B11
7105-B C12
7105-C B12
7105-D C11
7106-A D9
7106-B E12
7106-C E7
7106-D E6
7107 F5
7121 G11
7122 H11
I100 C1
I101 C2
I102 C1
I103 C2
I104 C1
I105 C2
I106 D1
I107 D2
I108 D1
I109 D2
I110 D1
I111 D2
I112 E1
I113 E2
I114 E1
I115 E2
I116 E1
I117 F2
I118 E1
I119 F1
I120 A4
I121 A4
I122 B1
I124 I1
I126 I1
I127 I1
I128 I1
I129 I1
I130 A13
I131 B9
I132 B10
I133 B5
I134 B6
I135 B10
I136 C6
I137 C13
I140 E13
I141 E8
I142 E9
I143 G8
I144 G11
I145 H8
I146 H8
I147 H8
I148 H9
I149 H11
I150 F1
I151 F1
I152 G1
I154 A9
I156 B11
I158 G8
I159 G8
1
2
3
4
5
6
7
8
9
10
11
12
13
+3V3_OSC
+3V3_OSC
7103-A
TC7WHU04FU
I130
8
4
8
4
SYS CLK & CONTROL
1V61
7
1V6
6
2
1V6
24.576M
A2
+3V3D
7103-B
TC7WHU04FU
+3V3_OSC
100n
2100
7101-B
TC7WHU04FU
+3V3D
8
2113
100n
A
A
I120
8
4
7103-C
TC7WHU04FU
I154
I121
3110
10R
7
1
2
6
1V6
1V6
1V6
8
4
I107
I111
7101-A
TC7WHU04FU
I103
4
1V6
3
5
1V6
+3V3D
+3V3D
7105-C
100n
2112
+3V3D
+3V3_OSC
3129
1M
7100-A
TC7WHU04FU
+3V3_OSC
7102-A
7105-A
8
4
74LVC00AD 14
100n
2110
5
74LVC74AD
1
7
14
74LVC00AD 14
9
2V / div DC
2us / div
2V / div DC
2us / div
2V / div DC
2us / div
1V6
1V6
I131
7100-C
TC7WHU04FU
1
8
+3V3D
1V6
I156
4
3
2
1
5
6
1V6
3
3V3 10
7101-C
TC7WHU04FU
8
4
2
0V
B
C
D
E
F
G
H
I
B
C
D
E
F
G
H
I
1101
3
1V6
1V6
7
8
4
7
5
3
AT-51CD2
24.576 SMD
3111
1M
1V6
1400
I122
I133
1
2
3
4
5
6
7
8
9
384 FS
7
1102
+3V3D
+3V3_OSC
+3V3D
4
1
3
2117
100n
6
I100
I102
I104
I106
I108
I110
I112
I114
I116
I101
3100
100R
3101
100R
3102
100R
3103
100R
3104
100R
3105
100R
3106
100R
3107
100R
3108
100R
SEL3
SDT3
SEL2
2
7100-B
TC7WHU04FU
7105-B
74LVC00AD 14
4
A3
A3
A3
7105-D
I137
47p
8
4
74LVC00AD 14
33.8688 SMD
NX6035SA
I103
AD1895_CLK
6
2
12
1V6
1V6
A2
2102
15p
11
5
3V3
0V
+3V3D
13
7
1100
I136
7102-B
7
I105
2103
74LVC74AD
14
AT-49
33.8688 TH
10
11
12
13
9
8
I107
192K_96K
A1,A2
10 SDT2
11
A3
A3
I109
12 SEL1
13
I113
I115
I117
I120
I130
I111
7
SDT1
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
+3V3D
7106-A
A2,A3
I113
74LVC00AD 14
LRCLK
0V
1
CLK_SEL
A2,A3
A2,A3
A1
3
2V / div DC
10us / div
2V / div DC
100ns / div
2V / div DC
20ns / div
2V / div DC
20ns / div
1V / div DC
20ns / div
15p
1V6 2
+3V3D
I115
2104
15p
7106-D
BCLK
7
74LVC00AD 14
12
0V
11 3V3
100n
2111
+3V3D
7106-B
74LVC00AD 14
PCM_CLK
2107
13
+3V3D
7106-C
7
I140
74LVC00AD 14
4
3V3
I118
I119
3128
47R
9
6
1V6
MCLK1
A2,A3
I141
I142
3123
47R
8
5
1V6
10
7
2V4
7
+3V3D
I117
*
*
7107
PCF8574T
I150
I151
I152
CCLK
CDATA
A3
A3
A3
+3V3D
+5VSTBY
13
1
INT_
CLATCH
A0
INTERRUPT
LOGIC
LP FILTER
2
A1
I131
I133
I143
3
P0
P1
P2
P3
P4
A2
0V
0V
0V
3V3
0V
4
5
*1200
EH-B
I158
14
15
3V3
3V3
SCL
SCL_3V3
SDA_3V3
A1
A1
1
2
3
4
SCL_5V
2
I C
A6
A6
INPUT
FILTER
BUS
CONTROL
6
7
9
SDA
I159
+3V3D
*
3131
0R
1V / div DC
20ns / div
1V / div DC
20ns / div
SHIFT 8 BIT I/O
REGISTER PORTS
+5VD
SDA_5V
I145
16
8
P5 10 3V3
VDD
VSS
POWER-ON
RESET
+3V3D
I137
I140
I146
3V3
0V
P6 11
P7 12
I147
2108
100n
3132
0R
*
2V / div DC
20ns / div
2V / div DC
20ns / div
4K7
+3V3D
1422
3118
4K7
*
440052
SCL_5V
1
+3V3D
I124
I126
2
3
4
5
6
7
8
3119
SDA_5V
STDBY_CTRL
P50
A6
A6
I127
I128
I129
+5VSTBY
+12V_Power
-32V_Power
* RESERVED
V DC Vtg measured in STOP-MODE
BARE BOARD : 3139-243-30533
CL 26532105_005.eps
290802
1
2
3
4
5
6
7
8
9
10
11
12
13
Electrical Diagrams
DVD963SA
7.
48
AV-Board: Upsampling
2200 B6
2201 B13
2202 C4
2203 C11
2204 C8
2205 F4
2206 F5
2207 F4
2208 F5
2209 F8
2210 G3
2211 I12
2212 I10
2213 B4
3200 E5
3201 E4
3202 E5
3203 H2
3204 F3
3205 H13
3206 H9
3207 H13
3208 H12
3210 I9
1
2
3
4
5
6
7
8
9
10
11
12
13
UPSAMPLING
I200
I201
I202
I203
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
+3V3D
7206-B
+3V3D
7206-C
+3V3D
7206-E
74LVC04
74LVC04
74LVC04
14
14
14
3
4
5
6
11
10
2V / div DC
2us / div
2V / div DC
100ns / div
2V / div DC
10us / div
2V / div DC
20ns / div
7
7
7
+3V3D
+5VD
2200
100n
2
2201
100n
+3V3D
7206-A
74LVC04
3211 I9
3212 F7
3213 H3
3214 I12
3215 I2
7207-D
74AC00M
12
14
7
35V 10u
1V6
1V6
1
14
+3V3D
7200
2213
74LVC157A
11
13
7200 B4
7201 F4
7202 F7
7203 G10
7204 C7
7205 C10
7206-A B6
7206-B A7
7206-C A8
7206-D E11
7206-E A10
7206-F F13
7207-A C12
7207-B E12
7207-C C13
7207-D B12
7220 H2
7221 E7
7222 I3
I200 C4
I201 C4
I202 D4
I203 D4
I207 G3
I208 H3
I209 H2
I212 D12
I214 E6
I215 E4
I216 E5
I217 F4
I218 F5
I219 F7
I220 D13
I222 E13
I223 H12
I224 H12
I225 I12
2202
2203
100n
1
16
8
A1
Upsampling
3V3
2204
100n
G1
EN
VCC
GND
7
+3V3D
100n
15
7205
16
7204
74LVC161
74LVC161
16
VCC
I200
VCC
2
3
2
1
9
3
4
5
6
CP
0V
0V
1~ MUX
1
0V
4
7
9
2
1
9
3
4
5
6
CP
+5VD
MR_
PE_
D0
A1
A1
A1
SDT1
BCLK
+5VD
+5VD
MR_
PE_
D0
I201
I202
I203
+5VD
5
1V6
0V7
1V6
1V6
0V3
1V6
1V6
7207-A
74AC00M
14
7207-C
74AC00M
9
6
Q0 14
1V6
Q0 14
Q1 13
Q2 12
Q3 11
1
14
1V8
I212
11
10
D1
Q1 13
3
D1
2
8
3V3
2V4
D2
Q2 12 1V6
Q3 11
10
LRCLK
24.576M
MCLK1
1V8
D2
7
1V6 14
1V6
D3
A1
A1
7
12
D3
13
10 CET
+5VD
10 CET
TC 15
+5VD
5V
TC 15
7
0V
7
CEP
GND
8
CEP
GND
+5VD
8
12.88M
I222
1V
+3V3D
I214
3200
27K
12.288M
192k
7206-D
A1
192K_96K
74LVC04
14
7
3V3
9
8
0V
0V
192k
7221
BC847B
I222
+3V3D
3202
3201
I215
I216
500mV / div DC
200ns / div
2V / div DC
2us / div
2V / div DC
50ns / div
+5VD
+3V3D
1R
1R
2205
4K7
3V
10u
3212
10u
2206
2208
7202
74LVC245
2207
+3V3D
7206-F
74LVC04
2209
100n
100n
100n
19
20
10
G3
VCC
1
14
3EN1
3EN2
GND
1V6
1V6
12
13
24.576M A1
7201
AD1895
13 RESET_
14 MUTE-I
7
22
7
I207
VDD-IO VDD-CORE
10u
2210
2
18
1
SDATA-O 23 0V
SCLK-O 25
2
SDT1
BCLK
LRCLK
4
5
6
SDATA-I
SCLK-I
A1
A1
A1
0V
FIFO
FSOUT
FSIN
3
4
5
6
7
8
9
17
16
15
14
13
12
11
1V6
1V6
1V6
1V6
0V7
1V6
5V
LRCLK-O 24
LRCLK-I
10 SMODE-IN-0
11 SMODE-IN-1
12 SMODE-IN-2
TDM-I 20
7203
AK4103VF
SMODE-O-0 19
SMODE-O-1 18
1
24
V1
U1
DIF2
DIF1
DIF0
TXP
DIG
PLL
FIR
FIL
3205
I223
Upsampling
3V3 9 BYPASS
2
23
22
21
20
19
18
17
16
15
14
13
A1
A1
+5VD
TRANS
3206
2K2
3
4
5
6
7
8
9
5V
+5VD
PDN
AD1895_CLK
2
MCLK-I
WLNGTH-O-0 17
WLNGTH-O-1 16
1V6
ROM
3207
2K2
I208
MCLK
26 MMODE-0
27 MMODE-1
28 MMODE-2
5V
I224
3208
330R
+5VD
2K2
0V
1V4
27K
SDTI
192K_96K
I209
0V
A1
1V6
1V6
MUTE-O 15
3203
BICK
TXN
VSS
VDD
CKS1
CKS0
BLS
7220
BC847B
LRCK
NC
1
MCLK-O DGND
100n
2211
3
8
21
FS0|CSN
FS1|CDTI
FS2|CCLK
FS3|CDTO
C1
3V
+5VD
5V
3210
2K2
10
11
12
+5VD
3215
27K
SPDIF_MUTE
A1
7222
3211
2K2
BC847B
3214
2K2
I225
10u
2212
ANS
+5VD
* RESERVED
CL 26532105_006.eps
020902
V DC Vtg measured in STOP-MODE
BARE BOARD : 3139-243-30533
1
2
3
4
5
6
7
8
9
10
11
12
13
E lectrical Diagrams
DVD963S A
7.
49
AV-B oard: Audio DAC
1201 A14
2120 F11
2300 B 3
2301 B 4
2302 B 3
2303 B 4
2304 D2
2305 D2
2306 G 5
2307 G 5
2308 G 4
2309 G 4
2310 C 11
2311 C 11
2312 C 12
2313 C 12
2314 D13
2315 F13
2316 D13
2317 F13
2318 G 2
2319 G 2
2320 G 3
2321 B 12
2322 D10
2323 B 11
3300 C 2
3301 D9
3304 D13
3305 D13
3306 D8
3307 E 8
3308 E 8
3310 E 5
3311 E 5
3313 E 14
3314 E 14
4300 F2
4301 F2
4302 F2
4303 G 2
4304 C 9
4305 C 9
4306 C 9
5300 B 12
5301 B 11
7300 C 3
7301 D9
I304 D5
1
2
3
4
5
6
7
8
9
10
11
12
13
14
I308
I330
I309
I311
I310
I334
I331
I304
I305
I306
I307
AUDIO DAC
1V / div DC
500us / div
1V / div DC
500us / div
1V / div DC
500us / div
1V / div DC
500us / div
1V / div DC
500us / div
2V / div DC
100ns / div
1V / div DC
500us / div
2V / div DC
100ns / div
1V / div DC
500us / div
2V / div DC
10us / div
1V / div DC
500us / div
A
B
C
D
E
A
B
C
D
E
For DE V E valuation
1201
*
2
3
P H-B
1
4
+5VD
+3V3_DAC +5VA
5
100n
10u
+5V_DAC
2300
2302
2301
2303
I326
5300
I327
5301
+5VA
2u2
2321
2u2
2323
1u
100n
7300
100p
C S 4362
100p
100n
100u
4
32
VA
I339
4304
4305
4306
C C LK
A1
A1
A1
VD
2312
2313
2310
2311
3300
47R
1V6
1V6
6
7
39
MC LK1
LR C LK
BC LK
A1
I340
I341
MC LK
AOUTA1+
AOUTA1-
C LATC H
C DATA
FR _MC LK
100n
40
A1
A1
DS D_E N
S C LK1
LR C K2
S C LK2
S DIN1
S DIN2
S DIN3
100u
0V7
9
FILTR
A4
38
37
AOUTB1+
AOUTB1-
10
12
8
I320
47u
I304
I305
47p
2322
3301
75R
A2
A5
2V6
2V6
35
36
S UR R OUNDL_P OS
S UR R OUNDL_NE G
2314
2316
AOUTA2+
AOUTA2-
*
0V
0V
11
13
A1 S DT2
A1 S DT3
A5
7301
AD1955
I306
I307
100n
27
24 25 26
1
15
13
2V6
2V6
34
33
+3V3_DAC
A5
A5
S UR R OUNDR _P OS
S UR R OUNDR _NE G
MC LK
DVDD
AVDD
FILTR
AOUTB2+
AOUTB2-
2304
3304
1K5
3305
1K0
43
IR E F 14
2V4
I308
I309
VOLTAG E
R E FE R E NC E
AUTO-C LOC K
DIVIDE R
VLS
100n
2305
2V6
2V6
29
30
C E NTE R _P OS
C E NTE R _NE G
A5
I330
S P I C ONTR OL
MULTIBIT
AOUTA3+
AOUTA3-
I305 D5
I306 D5
I307 D5
I308 D5
I309 D5
I310 E 5
I311 E 5
I313 D13
I314 E 13
I317 E 6
I313
3306
1u
1V6
3
2
1
FR _LR C K
FR _BC K
2
3
4
5
E F-WC LK|LR C LK
E F-BC LK|BC LK
E F-LDATA|S DATA
E F-R DATA
IOUTL+ 18 2V4
IOUTL_P OS
IOUTL_NE G
MFL
A4
A2
A5
DS DA1
DS DB1
DIG ITAL
FILTE R
E NG INE
I310
S E R IAL DATA
INTE R FAC E
I314
I332
3307
75R
75R
I-DAC
0V3
0V
IOUTL- 17
ZE R OL 21
2V4
5V
A4
A5
A2
S IG MA-DE LTA
MUODULATOR
28 2V6
A5
A2
A5
LFE _P OS
LFE _NE G
I311
I333
AOUTB3+
AOUTB3-
S /H
3313
FR _DATA
0V
DS DA2
DS DB2
27
2V6
I331
I334
E XTE R NAL
FILTE R I/F
10K
A1
3V3 48
S E L2
NOIS E
S HAP E D
I322
I323
I335
47
46
42
IOUTR + 11
IOUTR - 12
ZE R OR 20
IOUTR _P OS
IOUTR _NE G
MFR
0V
2V4
2V4
5V
A4
A4
A5
S C R AMBLING
DS DA3
DS DB3
M3
3308
75R
41
26
25
24
23
22
BC LK
S DT1
S E L1
0V7
6
7
8
9
DS D-S C LK
A1
MUTE C 1
MUTE C 2
MUTE C 3
MUTE C 4
MUTE C 5
MUTE C 6
I-DAC
A1 S E L3
A1 BC LK
3V3
0V7
I317
I318
3310
MS R
MC
DS D-LDATA
DS D-R DATA
DS D-P HAS E
4V8
4V8
A5
A5
0V
A1
A1
I336
3314
10K
I318 E 6
10K
DS D FILTE R
3311
10K
3V3
I320 C 13
I321 F13
I322 E 13
I323 E 13
I324 F5
A1
3V3
3V3
3V3
19
15
16
17
R E S E T
I321
R S T_
M2
2315
FILTB 16
3V
4300
4301
R E S E T MUTE DG ND
AG ND
10 19
A1 S C L_3V3
A1 S DA_3V3
100n
10u
23
22
28
2120
M1
I325 F4
*
2317
I326 B 12
I327 B 11
I330 D8
A1 R E S E T
3V3
M0
F
F
100n
I324
20 4V7
21 2V5
FILT+
VQ
I331 E 8
I325
18
I332 E 13
I333 E 14
I334 E 8
I335 E 13
I336 E 14
I339 C 10
I340 C 10
I341 C 10
VLC
+3V3_DAC
TE S TP OINTS
14 44 45
G ND1
5
G ND2
31
2318
100n
2319
*
2320
G
G
H
*
1u
100n
H
I
* R E S E R VE D
C L 26532105_007.eps
290802
V
DC Vtg measured in S TOP -MODE
BAR E BOAR D : 3139-243-30533
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Electrical Diagrams
DVD963SA
7.
50
AV-Board: Current to Voltage Converter
2400 A2
2401 C2
2402 B9
2403 B9
2404 B11
2405 B11
2406 E6
2407 F6
2408 H8
2409 I8
2410 G11
2411 H11
2412 B9
2413 C9
2414 E4
2415 D6
2416 G6
2417 E9
2418 E10
2419 F9
2420 F11
2421 E12
2422 H4
2423 G8
2424 I8
I421 G12
I423 H11
I424 H8
I425 E12
I426 G12
I427 A5
I428 D6
I429 D6
I430 E9
I431 E9
I432 F10
I433 F11
I434 F11
I435 F8
I436 G6
I437 G8
I438 G6
I439 G9
I440 H9
I441 H10
I442 H11
I443 I11
I444 I7
1
2
3
4
5
6
7
8
9
10
11
12
13
Current to Voltage Converter
+8V_OpAmp
16
7400-A
Vdd
I401
74HCT4053D
I400
8V
10K
11 S
Y0 12
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
+8V_OpAmp
STEREO_R
A5
3400
I427
14 Z
Y1 13
0V
3401
27K
+8V_OpAmp
7420
BC817-25
CENTER_ON
A1
E Vee Vss
2400
100n
0V
+8V_OpAmp
6
7
8
100n
2402
0V
FOR SCART
+8V_OpAmp
16
7400-B
-8VA
I403
100n
7401-A
LM833D
1
0V
3
8
Vdd
74HCT4053D
10 S
Y0
2
1
2412
100u
7402-B
LM833D
7
2404
0V
5
6
8
I445 I7
I404
I405
SCART_R
15 Z
Y1
E Vee Vss
2
A6
2425 H9
2426 H10
2427 I9
4
100n
2403
+8V_OpAmp
6
7
8
4
100n
2405
2428 H11
2429 G12
2430 D4
2431 E9
2432 G9
2433 G4
2434 G9
2435 F7
2436 H9
2437 I9
2438 I6
2439 I9
2440 E10
2441 H10
2442 H8
2443 I8
2444 F6
2445 F6
3400 A5
3401 A5
3403 D5
3404 D5
3405 D6
3406 F4
3408 G5
3409 G5
3410 G6
3411 E9
3412 E10
3413 E9
3414 E9
3415 F9
3416 F10
3417 F10
3418 F11
3419 F11
3421 F7
3422 F8
3423 G7
3424 H5
3426 I7
-8VA
16
7400-C
2401
100n
Vdd
-8VA
74HCT4053D
9
4
S
Y0
5
3
0V
0V
ITEM NO
7402
DESCRIPTION
IC SM LM833D
-8VA
Z
Y1
E Vee Vss
FRONT_L
(MOTA) R
X
A4
6
7
8
+8V_OpAmp
I408
-8VA
I407
I409
7401-B
LM833D
7
FOR SCART
0V
5
8
2413
100u
0V
STEREO_L
SCART_L
A5
A6
+8V_OpAmp
6
3438
4
7402-A
+8V_OpAmp
3
8
1K8
2430
LM833D
I428
-8VA
I410
0V
3403
3405
180R
2415
1
*
470p
470R
3404
100R
2
I429
4
-8VA
100p
-8VA
4
AD8022
7403-A
+8V_OpAmp
A3 IOUTL_NEG
2V4
2
I430
I412
AD8032
7405-A
3411
2K7
3412
1K8
I400
I408
1V5 3
2V4
1
8
I414
2421
100u
I413
I425
0V
1
FRONT_L
A4,A5
2V4
3
I411
8
2
1V5
4
-8VA
+8V_OpAmp
2406
-8VA
AD8022
7403-B
2V / div DC
500us / div
2V / div DC
500us / div
100n
2445
4
8
IOUTL_POS
FILTR
2V4
6
A3
A3
I417
470u
I411
I414
7
3406
560R
2V4
5
3427 I7
3428 I8
470u
I432
I433
2420
470p
3418
3415
2K7
3416
2V4
3429 G9
3430 G10
3431 G9
3432 H9
3433 H9
3434 H10
3435 I10
3436 H11
3437 I11
3438 D5
3439 F5
3440 F7
3441 I6
7400-A A7
7400-B B2
7400-C B7
7401-A B8
7401-B C8
7402-A D10
7402-B B10
7403-A D5
7403-B E5
7404-A G7
7404-B H7
7405-A E11
7405-B G11
7420 A5
I400 A10
I401 A7
I403 B8
I404 B8
I405 B11
I407 C8
I408 C9
I409 D8
I410 D11
I411 E6
I412 E10
I413 E5
I414 E12
I416 F11
I417 F6
2444
2407
1K8
100R
I416
I434
+8V_OpAmp
3440
2419
680p
2434
3439
1K8
2433
3417
1K8
3419
2K7
100n
1V / div DC
500us / div
2V / div DC
500us / div
1K8
2435
+8V_OpAmp
+8V_OpAmp
I435
I437
3421
470R
3423
100R
3422
180R
2423
*
I436
2416
470p
3408
*
470p
1n0
2432
I417
I418
100R
3409
470R
100p
3410
I438
100p
-8VA
1n0
AD8022
+8V_OpAmp
7404-A
AD8032
180R
7405-B
AD8032
2410
100n
0V
2V4
2
4
A3
IOUTR_NEG
I439
I420
3429
3430
1K8
1V5
5
2V4
8
I421
2429
100u
I419
1
I426
2K7
1V / div DC
500us / div
1V / div DC
500us / div
7
2V4
3
FRONT_R A4,A5
I418
8
6
1V5
4
2411
100n
+8V_OpAmp
2408
-8VA
I421
I424
-8VA
AD8022
7404-B
100n
2442
A3
A3
4
8
IOUTR_POS
FILTR
2V4
6
I424
470u
2V4
I441
I442
2428
470p
3436
3433
2K7
3434
1K8
2V / div DC
500us / div
1V / div DC
500us / div
7
100R
3424
560R
I423
2V4
5
I443
470u
2427
680p
2439
3435
1K8
3437
2K7
2443
2409
+8V_OpAmp
3441
1K8
2438
100n
2424
1n0
2437
+8V_OpAmpI444
I445
3426
100R
3427
470R
*
470p
1n0
100p
3428
* RESERVED
180R
I418 G8
I419 G7
I420 G10
V DC Vtg measured in STOP-MODE
BARE BOARD : 3139-243-30533
CL 26532105_008.eps
020902
1
2
3
4
5
6
7
8
9
10
11
12
13
Electrical Diagrams
DVD963SA
7.
51
AV-Board: Audio
1401-A A13
1402-A G13
1402-B E13
1402-C C13
2500 D5
2501 D4
2502 F5
2503 G5
2510 D2
2511 D2
2512 D4
2513 E4
2514 E3
2515 E2
2516 E2
2517 E4
2518 E2
2519 F2
2520 F4
2521 F3
2522 G2
2523 G2
2524 G4
2525 G4
2526 G3
2527 H2
2528 H2
2529 H2
2530 B13
2531 B12
2532 E5
2533 F5
2534 G5
2535 H4
2536 H5
2537 I4
3581 A8
3582 A9
3583 B7
3584 B8
3585 C7
3588 F7
3589 G7
3590 A10
3591 B7
3592 H7
4500 A7
4501 A8
4502 B7
4503 B7
6500 A7
6501 B7
7501-A E4
7501-B D4
7502-A F4
7502-B H4
7521 A12
7522 A8
7523 B11
7525 C12
7527 D11
7529 E12
7531 G11
7533 H12
7535 I11
7536 A9
7537 B8
7538 C7
7541 E8
7542 F8
7543 H8
I501 B1
I502 B1
I504 B3
I505 B3
I506 D4
I507 D5
I508 E4
1
2
3
4
5
6
7
8
9
10
11
12
13
I510
3540
220R
STEREO_R_OUT
STEREO_R
A4
AV AUDIO
BAS316
6500
I539
4V3
+5VSTBY
STEREO L/R
+5VSTBY
3590
I541
BC857B
7536
0V
1401-A
I571
3K3
BC857B
7522
3541
1K
YKC21-4105
2
I411
I417
0V7
7521
BC817-25
A
A
RIGHT
I543
I542
3V5
3
1
4V2
*
0V
I520
47K
3591
STEREO_L_OUT
2.00 V / div DC
500us / div
2.00 V / div DC
500us / div
I544
3550
220R
MUTE
A6
A4
4502
LEFT
BAS316
I545
0V7
3583
10K
7537
BC847B
0V
6501
-8VA
I570
-8V
*
3551
1K
+8V_OpAmp
0V7
I521
I418
I424
4503
+5VD
*
STEREO_L
B
C
D
E
F
G
H
I
7523
B
C
D
E
F
G
H
I
BC817-25
I501
I504
I505
3501
3502 10R
10R
3504
3505 10R
10R
AVCC_B
AVCC_C
-8VA_B
-8VA_C
I502
I522
3555
470R
FrontR_OUT
2.00 V / div DC
500us / div
2.00 V / div DC
500us / div
FRONT_R
MSR
A4
A3
I547
7538
BC857B
5V
0V
FRONT L/R
I569
3556
1K
0V7
7525
BC817-25
1402-C
2538 I3
2539 I2
3585
YKC21-3866
*
RIGHT
I550
0V5
8
9
7
2540 D12
2541 D13
2542 F13
2543 F12
2544 I12
2545 I13
2546 A8
2547 A8
3501 B1
3502 B1
3504 B3
3505 B2
3506 D2
3507 D2
3508 D2
3510 D3
3511 D3
3512 E2
3513 E2
3514 E3
3515 E4
3516 E3
3517 E2
3518 E2
3519 E3
3520 F2
3521 F3
3522 F2
3523 F2
3524 F3
3525 F3
3526 F4
3527 F2
3528 F2
3529 F3
3530 G2
3531 G3
3532 G2
3533 G2
3534 G3
3535 G3
3536 G4
3537 H2
3538 H2
3539 H3
3540 A11
3541 A11
3543 H2
3544 H3
3545 I2
47K
AVCC_B
I509 E4
I510 A11
I512 E5
I513 F4
I514 F4
I515 G5
I516 G4
I517 H4
I518 H5
I519 I4
I524
100n
3558
470R
FrontL_OUT
FRONT_L
A4
I506
7501-B
NE5532
3506
10K
3507
10K
A3
3510
10K
2500
0V
5
LFE_POS
1V4
8
4
LEFT
I507
7
0V
6
1V4
I568
3560
1K
0V7
3K3
22K
100n
2501
2513
3511
7527
BC817-25
3508
I520 A11
I521 B11
I522 B11
I524 D11
I526 E10
I527 E11
I529 F10
I530 F11
I532 G10
I533 G11
I535 H10
I536 H11
I539 A8
I541 A9
I542 A8
I543 A8
I544 A7
I545 B8
I546 A8
I547 C8
I550 C8
I552 F8
I553 G8
I564 I11
I565 H11
I566 F11
I567 E11
I568 D11
I569 C11
I570 B11
I571 A11
-8VA_B
C/LFE
3512
10K
3513
10K
A3
A3
10K
LFE_NEG
3514
100p
3515
I508
SUB-WOOFER
1402-B
YKC21-3866
5
2532
100u
I526
I527
2514
470p
2515
3563
220R
3516
LFE_OUT
22K
3K3
270p
AVCC_B
7501-A
NE5532
0V
I509
3517
10K
3518
10K
10K
3519
3
1V4
CENTER_POS
8
I567
3564
1K
0V7
7529
BC817-25
I512
5V
6
4
1
0V
7541
A3
MC
BC857B
2
1V4
4
3520
22K
3521
3K3
3588
*
I552
-8VA_B
2520
47K
CENTER
3522
10K
3523
3524
A3
CENTER_NEG
I529
I530
2533
100u
3566
220R
CENTER_OUT
CENTER A4,A5
A5
A3
CENTER
100p
3526
10K
10K
3525
I513
270p
2519
2521
470p
22K
3K3
AVCC_C
0V3
100n
2502
0V
0V
I514
I566
0V7
7502-A
NE5532
5V
3527
10K
3528
10K
3567
1K
SURROUNDR_POS
3529
10K
A3
1V4 3
7542
8
MFL
BC857B
I515
1
7531
3589
*
BC817-25
I553
2
1V4
100n
2503
47K
4
3530
22K
3531
3K3
SURROUND L/R
-8VA_C
I532
I533
2534
100u
3571
2210KR
SurroundR_OUT
1402-A
A3
2525
3532
10K
3533
10K
3534
SURROUNDR_NEG
YKC21-3866
RIGHT
10K
3535
100p
3536
0V
I516
2
3
270p
2526
470p
0V
3546 I2
3547 I3
3548 I3
3549 I4
I565
22K
2527
3K3
5V
3572
1K
0V7
7543
7533
BC817-25
A3
MFR
BC857B
3592
47K
AVCC_C
7502-B
1
3550 B11
3551 B11
3552 B12
3553 B12
3555 C11
3556 C11
3558 D11
3560 D11
3561 D12
3562 D12
3563 E11
3564 E11
3566 F11
3567 F11
3568 F12
3570 F12
3571 G11
3572 H11
3574 H11
3575 I11
3576 I12
3577 I12
3579 A8
3580 A8
I517
3537
10K
3538
10K
A3
3539
10K
NE5532
5
SURROUNDL_POS
1V4
8
LEFT
I518
7
0V
6
1V4
2536
100u
I535
I536
SurroundL_OUT
+5VD
3574
220R
4
3543
22K
3544
3K3
-8VA_C
A3
2537
3545
10K
3546
10K
3547
0V
SURROUNDL_NEG
I564
100p
3549
3575
1K
10K
3548
I519
0V7
2538
470p
270p
22K
2539
7535
BC817-25
3K3
* RESERVED
V DC Vtg measured in STOP-MODE
26532105_009.eps
290802
BARE BOARD : 3139-243-30533
1
2
3
4
5
6
7
8
9
10
11
12
13
Electrical Diagrams
DVD963SA
7.
52
AV-Board: Video and SCART
1401-B C13
1403 A1
1408 D13
1409-A E13
1409-B F13
1409-C G13
1410 I13
1420 D1
1421 E1
1424 E2
2600 B10
2601 C12
2602 C13
2603 E10
2604 E13
2605 E13
2606 E7
2608 F4
2609 F5
2610 F7
2611 G12
2612 D5
2613 D6
2614 F6
2615 H12
2616 G6
2617 H9
2618 I11
2619 I7
3645 D10
3646 D11
3647 E9
3648 E11
3649 E9
3650 F9
3651 F11
3652 H3
3653 H4
3654 F9
3655 I3
3656 G9
3657 G11
3659 D4
3660 G9
3661 F6
3662 H9
3663 H11
3664 G6
3665 H12
3666 I5
3667 G6
3669 I10
3670 I10
3671 G3
3672 E9
3673 B3
3674 A10
3675 A10
3676 A10
3677 H5
3678 H5
3679 H6
3680 H5
3681 I4
7643 I3
I600 A1
I601 A1
I602 A1
I603 A1
I604 B1
I605 C1
I606 C1
I607 C1
I608 C1
I609 C1
I610 C1
I611 D1
I613 F1
I614 F1
I615 F1
I616 F1
I617 G1
I618 G1
I619 G1
I620 H4
I621 H3
I622 I3
I623 F5
I624 F6
I625 F5
I626 H1
I627 H1
I628 H1
I629 I1
I630 E5
I631 E7
I632 E7
I633 F7
I634 D4
I635 D4
I636 D5
I637 F7
I638 G6
I639 G7
I640 D5
I641 D6
I642 I6
I702 F11
I703 G10
I704 H10
1
2
3
4
5
6
7
8
9
10
FOR SCART
11
12
13
I600
I601
I602
I603
1403
+5VSTBY
1
Blue_Scart
Green_Scart
Red_Scart
Y_Scart
A6
A6
+5VVID
2
AV VIDEO AND SCART
3
7620
BC847B
I650
0V2
3.3K 3601
+12V_Power
4
3610
3.3K
3.3K
3.3K
3674
3675
3676
SCART1
0|6|12
A6
5
A
A
A6
0V7
10K
3611
I651
6
0V
0V7
DGND
18K
I652
7
For SCART
7627
BC847B
A6
I653
0V2
3612
22K
8
7628
BC847B
A6
+5VSTBY
9
SCART_L
SCART_R
CVBS_Scart
A6,A4
+5VVID
+5VVID
+5VVID
+5VVID
+5VVID
+5VVID
10
11
12
13
14
15
16
17
18
19
20
21
3635
15K
7629
BC847B
-4V7
+5V_Power
A6,A4
-8V
I655
I654
I656
3636
10K
0V7
SCART0
A6
2620 I5
2V4
2V4
2V4
7621
BC817-25W
7624
BC817-25W
2V4
2V4
2V4
7622
7623
7625
7626
+12VSTBY
8K2
3637
2621 I12
2622 I13
2623 I11
2624 I13
2625 G6
2626 D7
2627 D6
2628 E7
2630 E12
2631 E12
2632 F12
2633 D2
2634 D2
2635 D2
2636 D2
2637 D3
2638 D3
2641 C11
2642 D11
2643 F10
2644 G10
2645 H10
2646 H6
3600 A8
3601 A10
3602 A12
3603 A12
3604 B3
3605 B4
3606 B5
3607 B6
3608 B6
3609 B7
3610 A9
3611 A9
3612 A11
3614 B4
3615 B4
3616 B5
3617 B6
3618 B7
3619 B9
3620 A10
3621 B11
3622 C2
3623 C3
3624 C3
3625 C4
3626 C4
3627 C5
3628 C5
3629 C6
3630 C6
3631 C7
3632 C7
3633 C8
3634 B8
3635 B10
3636 B9
3637 B12
3638 B9
3639 C9
3640 C10
3641 C12
3642 C12
3643 D9
3644 D10
B
C
D
E
F
B
C
D
E
F
BC817-25
BC817-25
BC817-25
BC817-25
7630
BC847B
I604
3638
18K
-8V
1V6
3673
56R
3614
3615
56R
3618
56R
1V6
3616
68R
3617
68R
1V6
1V6
1V6
1V6
DGND
A6
56R
3682 I5
3683 H3
3684 I2
4102 C11
4600 C10
4601 F12
4602 G12
4604 I7
I605
VIDEO CVBS
C_Scart
0|6|12
A6
A6
A6
1401-B
YKC21-4105
6
+5VVID
I657
3639
100R
AMUTE
SCL_5V
SDA_5V
CVBSOUT_Mono
A6
-8V
-8V
-8V
-8V
-8V
-8V
7631
BC817-25W
I660
I662
I661
I700
470u
3641
2V4
I643 I6
I644 I5
I645 I5
5
4606 D6
4607 D7
4608 D12
4609 E12
4610 F12
4611 D11
4612 F10
4613 F10
4614G10
5600 C10
5601 E7
5602 E7
5603 F7
5604 G12
5605 H12
5606 H9
5607 I11
5608 D12
5609 E12
5610 F12
6600 G11
6601 H11
6602 C12
6603 D11
6604 E11
6605 F11
6606 H6
6607 I13
7600 E5
7601 D5
7602 I6
4600
A6
A6
A1
68R
3642
2641
*
I663
2K2
I646 D1
I650 A9
I651 A12
I652 A12
I653 A11
I654 B11
I655 B9
I656 B9
I657 C10
I658 I7
3
1
4
1V6
-8V
22 P50
4102
5600
DSS306
68R
3640
*
2
1420
+12V_Power
-12V_Power
1
I691
+3V3_Power
+5VVID
S-VIDEO
1408
TCS79
-
4606
+8V_OpAmp
2
3
-8V
3
I659 I7
I611
7601
LF80C
7603
LF50
4611
I665
+
3644
100R
Y_Mono
C_Mono
I660 C10
I661 C11
I662 C12
I663 C13
I664 D9
I665 D10
I666 D10
I667 D12
I668 E10
I669 E11
I670 D13
I671 E9
I672 F10
I673 F11
I674 F9
I675 E12
I676 F12
I677 G11
I678 G9
I679 H11
I680 G12
I681 G12
I682 H10
I683 H11
I684 H12
I685 H13
I686 H9
I687 I12
I688 I9
A6
A6
1
3
4
2
2V4
I667
I701
3646
4
5
7
6
3659
I692
I635
I636 I640
I693
470u
+12V_Power
+12VSTBY
+5VVID
1
3
1
3
4608
*
1V6
I641
I646
+12V_Power
7633
BC817-25W
IN
OUT
IN
OUT
+5VA
5
+5VSTBY
I634
68R
1
1R
GND
GND
2
2642
*
2K2
3645
6
2
I664
I670
3643
100R
3672
-8V
BC817-25W
5608
DSS306
7632
*
2
7
I666
2V4
+5VSTBY
8
*
-8V
9
1K8
-12V_Power
I630
I631
I632
I633
I668
5601
2K2
3648
68R
I675
2603
470n
I669
10
11
12
4609
1V6
+5VD
-8V
+3V3D
*
1424
PH-B
33u
47u
3647
1
3
7600
-32V_Power
A1
1
2
LD1117
+3V3_Power
+5V_Power
5609
DSS306
+5VVID
STDBY_CTRL
7603 D6
7604 I9
2606
*
5602
33u
2
3
2
IN
OUT
+3V3_DAC
+3V3_OSC
7620 A9
7621 B2
7622 B3
7623 B4
7624 B5
7625 B6
7626 B7
7627 A12
7628 A12
7629 B11
7630 B9
7631 C10
7632 D9
7633 D10
7634 F10
7636 H4
7637 F10
7638 I3
16V 47u
2628
1409-A
YKC21-3930
3
1421
GND
I671
I674
I678
3649
1
2
SCL_5V
SDA_5V
SCART1
SCART0
GREEN_Y
2
A1,A6
A6
A6
A6
7634
*
-8V
1
4
BC817-25W
I696
100u
2609
5603
33u
100R
2K2
A1,A6
A6
I702
I673
470u
3651
75R
1
4610
Y
U
V
I613
I614
47u
-8V
3
4
5
6
7
3650
I672
3
1
2643
4612
+5V_Power
A6
*
2610
5610
DSS306
*
2
I689 I9
I615
+5VVID
3661
4R7
I691 D7
I692 D7
I693 D12
I694 G12
I695 G3
I696 F12
I697 G6
I698 G7
I700 C12
I701 D11
I623
I624
I637
BLUE_U
A6
A6
+5VSTBY
+5VVID
-8V
100u
1409-B
I625
I616
7641
IRLML2502
3654
4
3
YKC21-3930
BLUE_U
4613
7637
I676
1
GREEN_Y
8
4601
BC817-25W
2614
100u
100R
2K2
I694
3667
I695
I697
I638
I698
I639
I703
I677
470u
3671
4K7
3657
75R
3
9
I617
I618
I619
I626
7640 G10
7641 F4
7642 I5
-8V
+5V_DAC
+5VD
+12V_Power
3656
5604
DSS306
RED_V
10
11
Y_Mono
12
13
C_Mono
14
15
A6
A6
1R
2644
*
*
2
3664
2625
100u
G
H
+5VVID
G
H
1R
1409-C
2616
-8V
3660
YKC21-3930
RED_V
6
A6
A6
4614
7640
I681
1
I680
ITEM NO DESCRIPTION
4602
BC817-25W
100R
2K2
AMUTE
A6
I704
I679
470u
2645
3663
75R
3
5
1403
3604
3605
3606
3607
3608
3609
3614
3615
3616
3617
3618
3622
3623
3624
3625
3626
3627
3628
3629
3630
3631
3632
3633
3673
7621
7622
7623
7624
7625
7626
CON BM V 22P F 1.00 FFC 0.3 B
RST SM 0603 100R PM5 COL
RST SM 0603 100R PM5 COL
RST SM 0603 100R PM5 COL
RST SM 0603 100R PM5 COL
RST SM 0603 100R PM5 COL
RST SM 0603 100R PM5 COL
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
+5VSTBY
-8V
16CVBSOUT_Mono
+12VSTBY
5605
DSS306
3662
*
I627
17
2
*
+3V3_Power
+5VD
18
19
20
21
+5V_Power
3677
470R
3678
2K2
3679
220R
RST SM 0603 RC21 56R PM5
RST SM 0603 RC21 56R PM5
RST SM 0603 68R PM5 COL
RST SM 0603 68R PM5 COL
RST SM 0603 RC21 56R PM5
RST SM 0603 2K2 PM5 COL
RST SM 0603 75R PM5 COL
RST SM 0603 2K2 PM5 COL
RST SM 0603 75R PM5 COL
RST SM 0603 2K2 PM5 COL
RST SM 0603 75R PM5 COL
RST SM 0603 2K2 PM5 COL
RST SM 0603 75R PM5 COL
RST SM 0603 2K2 PM5 COL
RST SM 0603 75R PM5 COL
RST SM 0603 2K2 PM5 COL
RST SM 0603 75R PM5 COL
RST SM 0603 RC21 56R PM5
R
R
-8V
3652
5K6
12V
OPTION
DIGITAL
+12V_Power
BC857B
7636
I620
10K
I682
I683
I684
I685
10u
2617
100n
3665
68R
5V
3
4
6
I628
R
I621
22 MUTE
-8V
7602
MC79M08
A3,A5,A6
3653
3681
33K
2
1
1410
YKC21-3416
7642
BC847B
7604
GP1F32T
2618
I622
0V
5K6
23
24
25
26
27
28
7638
BC847B
I687
I658
1
3
3
2
IN
OUT
3655
-8V
I659
I688
3669
100R
3670
100R
OPTICAL
GND
4604
1
7
8
5607
7CHA
-8VA
DRIVER
3
2
-8V
2
3684
10K
7643
BC847B
MUTE
A6
6607
BZX284-C15
3666
I642
1
0V7
-12V_Power
I
I
I643
-8V
I644I645
1R
47p
2624
10n
10u
2623
29
R
TRA SIG SM BC817-25 (COL) R
TRA SIG SM BC817-25 (COL) R
TRA SIG SM BC817-25 (COL) R
TRA SIG SM BC817-25 (COL) R
TRA SIG SM BC817-25 (COL) R
TRA SIG SM BC817-25 (COL) R
2620
I629
I689
DIG_OUT
30
SPDIF_OUT
A2
A2
V DC Vtg measured in STOP-MODE
* RESERVED
CL 26532105_010.eps
020902
BARE BOARD : 3139-243-30533
1
2
3
4
5
6
7
8
9
10
11
12
13
I600-RGB Video output
I601 RGB Video output
I602 RGB Video output
I603
I604
I605
I615-YUV Video output
I615 RGB Video output
I616 RGB Video output
I617-YUV Video output
I617 RGB Video output
I618
I619
I626
I662
I667
I696
I670
I616 YUV Video output
500mV / div AC
20us / div
500mV / div AC
20us / div
500mV / div AC
20us / div
500mV / div AC
20us / div
500mV / div AC
20us / div
500mV / div AC
20us
500mV / div AC
20us / div
500mV / div AC
20us / div
500mV / div AC
20us / div
500mV / div AC
20us / div
500mV / div AC
20us / div
500mV / div AC
20us / div
500mV / div AC
20us / div
500mV / div AC
20us
500mV / div AC
20us / div
500mV / div AC
20us / div
500mV / div AC
20us / div
500mV / div AC
20us / div
500mV / div AC
20us
Electrical Diagrams
DVD963SA
7.
53
Layout AV-Board (Top Side)
1100 C10 2103 B9
1101 D9 2104 B10 2208 D11 2321 B14 2427 D13 2511 C16 2547 E17 2628 B17 3104 B10 3207 D11 3416 D15 3441 D14 3520 D17 3585 E16 3618 D5
1102 C10 2107 B10 2209 D10 2400 E13 2428 D14 2512 D16 2606 B8
2207 D11 2319 B16 2426 D14 2510 C15 2546 D16 2627 B18 3103 B10 3205 D11 3415 D15 3440 C14 3519 D17 3584 E16 3617 D5
3644 E6
3661 E4
3672 F5
3674 B4
3675 B4
3676 B4
4604 D18 7102 C9
4614 E7 7103 C9
5300 B14 7107 C8
5600 E10 7200 C12 7405 D14 7602 D19
7400 E13 7543 E14
7401 E12 7600 B6
2633 D2
2635 D2
2637 D3
2639 C4
3105 B10 3208 D11 3417 E15 3501 D16 3521 D17 3588 E15 3621 E5
3106 B10 3212 D9 3418 D15 3504 C16 3522 D17 3589 E14 3624 D4
7402 D6
7601 B18
1200 B3
2108 B8
2210 D12 2401 F13
2211 D11 2404 D6
2429 E14 2513 D16 2608 B7
2431 D15 2514 D16 2609 B8
1201 B12 2109 C8
1400 B10 2112 B9
3107 B10 3213 D11 3419 E15 3506 C15 3523 D17 3590 E16 3625 D4
3108 B10 3214 D11 3424 D14 3507 C16 3524 D17 3591 E15 3626 D4
5603 C9
5604 E8
7201 D12 7420 E13 7603 C18
7202 D10 7501 D16 7604 F3
7203 D11 7521 E11 7622 D4
2212 C10 2409 D14 2432 E15 2515 D15 2610 C8
1402 F15
1403 D4
1408 F6
1409 F8
1410 F2
1420 C2
1421 C6
1422 B2
2113 D9
2213 C11 2410 E14 2436 D14 2516 D17 2612 B18 2640 D3
3116 C8
3215 C9
3305 D13 3430 D14 3510 C16 3526 D17 3602 E5
3310 C16 3431 D14 3511 D16 3551 F12 3603 E5
3429 D14 3508 D15 3525 D17 3592 E14 3627 D4
4100 B11 5605 E7
4101 B11 5607 E1
4300 B16 5608 E6
4301 B16 5609 F5
4304 B11 5610 E9
2116 C11 2301 C16 2411 D14 2439 E13 2517 D17 2613 B19 2641 E10 3117 C8
3630 D5
3631 D5
3632 D5
3633 D5
3635 E5
3637 E5
7204 D8
7205 D9
7206 D8
7522 D16 7623 D4
7527 E14 7625 D5
7529 E15 7626 D5
2117 C10 2302 B17 2412 E11 2440 D15 2518 D17 2614 F5
2200 D8 2305 B17 2413 F12 2441 D14 2519 D17 2616 A6
2201 E11 2307 B15 2417 D15 2442 C14 2520 D17 2618 E2
2642 E7
2643 E9
2644 E8
3118 C8
3119 C8
3120 C9
3311 C16 3432 D13 3512 D15 3564 E15 3605 D4
3314 E13 3433 D13 3513 D16 3566 E15 3606 D4
7207 D10 7531 E15 7627 E5
4305 B11 6500 E15 7220 D10 7535 F17 7628 E5
2202 C11 2309 B15 2418 D15 2443 D13 2521 D17 2619 D18 2645 D7
3123 C11 3401 E13 3434 D14 3514 D16 3574 F17
3608 D6
2203 D9
2204 D8
2311 D13 2419 D15 2444 D14 2532 D16 2620 C18 2646 D6
2312 B14 2420 D15 2445 C15 2533 D17 2624 F4 3100 B9
3125 B8 3411 D15 3435 D14 3515 D16 3579 E16 3609 D5
4500 E16 6501 E15 7221 D9
7537 E16 7629 E5
7538 E16
3200 D10 3412 D15 3436 D14 3516 D16 3580 D16 3612 E5
3202 D11 3413 D15 3437 D14 3517 C17 3581 E16 3614 D4
3639 E10 4501 E16 6603 E6
3640 E10 4502 E15 6604 F5
7222 C9
1424 A14 2205 D12 2314 D13 2421 E15 2500 D16 2534 E18 2625 D13 3101 B9
2102 B9 2206 D12 2317 B13 2425 D14 2501 C16 2536 F17
7300 B16 7541 E15
7301 C13 7542 E13
2626 C18 3102 B10 3203 D10 3414 D15 3438 C15 3518 C17 3583 E15 3615 D4
3643 E5
4503 E15 6605 E9
CL 26532105_011.eps
290802
Electrical Diagrams
DVD963SA
7.
54
Layout AV-Board (Overview Bottom Side)
2100 B11
2101 B11
2105 C10
2106 B10
2110 B10
2111 B9
2114 C11
2115 D11
2118 B10
2119 C10
2120 C7
2300 B4
2303 C4
2304 B4
2306 B5
2308 B5
2310 D8
2313 C7
2315 C7
2316 D7
2318 B4
2320 C4
2322 C7
2323 D7
2402 E8
2403 E8
2405 E14
2406 C5
2407 D6
2408 C6
2414 D5
2415 C6
2416 D6
2422 C6
2423 C7
2424 D7
2430 C5
2433 D5
2434 E5
2435 C6
2437 E7
2438 D6
2502 E2
2503 E2
2522 D2
2523 E1
2524 E2
2525 E2
2526 D2
2527 D2
2528 F1
2529 F2
2530 F9
2531 F9
2535 F2
2537 F2
2538 F2
2539 F2
2540 F6
2541 F6
2542 F5
2543 F5
2544 F4
2545 F4
2600 B16
2601 F10
2602 F10
2603 F15
2604 F14
2605 F15
2611 F12
2615 E13
2617 F17
2621 F18
2622 F19
2623 F18
2630 F14
2631 F15
2632 F11
2634 D18
2636 D18
2638 D17
3109 B13
3110 B11
3111 C10
3204 D8
3206 C10
3210 D10
3211 D10
3300 B4
3301 C8
3304 D7
3306 C8
3307 C8
3308 C8
3313 E6
3400 E7
3403 C5
3404 C5
3405 C5
3406 D5
3408 D5
3409 D5
3410 D5
3421 C6
3422 C6
3423 C6
3426 D6
3427 D6
3428 D6
3439 D5
3502 E2
3505 E1
3527 D2
3528 D2
3529 E2
3530 D1
3531 D1
3532 D2
3533 D2
3534 E2
3535 E2
3536 E2
3537 F1
3538 F1
3539 F2
3540 F9
3541 E9
3543 F1
3544 F1
3545 F3
3546 F2
3547 F2
3548 F2
3549 F2
3550 F8
3552 F9
3553 F9
3555 F6
3556 E7
3558 E6
3560 E6
3561 F7
3562 F6
3563 E5
3567 E5
3568 F5
3570 F5
3571 F4
3572 E4
3575 F3
3576 F4
3577 F4
3582 D4
3600 C16
3601 C16
3604 D16
3607 D15
3610 C16
3611 C16
3616 D16
3619 B16
3620 B16
3622 D16
3623 D16
3628 D16
3629 D15
3634 C15
3636 C15
3638 C15
3641 F10
3642 F10
3645 E14
3646 E14
3647 F14
3648 F15
3649 E11
3650 E11
3651 E11
3652 D13
3653 D13
3654 E12
3655 D14
3656 E12
3657 E12
3659 B2
3677 D14
3678 D14
3679 D14
3680 D13
3681 D13
3682 D13
3683 C14
3684 C14
4102 E10
4302 C4
4303 B4
4602 E13
4606 B2
4607 C2
4608 F14
4609 F15
4610 F11
4611 E14
4612 E11
4613 E12
5301 D8
5601 A12
5602 B3
5606 F17
6600 E12
6601 E13
6602 F10
6606 D14
6607 F19
7100 C10
7101 C11
7105 D10
7106 C9
7121 A12
7122 A11
7403 D5
7404 C6
7502 E2
7523 F8
7525 E6
7533 E4
7536 E4
7640 E13
7641 B15
7642 D13
7643 C14
3112 B10
3113 B13
3114 C13
3115 C13
3124 A12
3126 A11
3127 A12
3128 B8
3129 D11
3130 D11
3131 A12
3132 A11
3201 D8
3660 E13
3662 E13
3663 E13
3664 B15
3665 E19
3666 D2
3667 D7
3669 E18
3670 E18
3671 B15
3673 D16
7620 C16
7621 D16
7624 D16
7630 C16
7631 E10
7632 E15
7633 E14
7634 E11
7636 D13
7637 E12
7638 C13
4306 B9
4600 E10
4601 F12
Part 1
CL 26532105_12a.eps
Part 2
CL 26532105_12b.eps
CL 26532105_012.eps
290802
Electrical Diagrams
DVD963SA
7.
55
Layout AV-Board (Part 1 Bottom Side)
CL 26532105_12a.eps
280802
Electrical Diagrams
DVD963SA
7.
56
Layout AV-Board (Part 2 Bottom Side)
CL 26532105_12b.eps
280802
Electrical Diagrams
DVD963SA
7.
57
Display Panel
1100 C1
1101 D11
1102 D11
1103 D12
1104 E11
1105 E11
1106 E12
1108 F14
1111 A6
1112 E12
1113 E13
1114 D12
1119 G6
1120 B1
2102 H12
2103 I7
7402 H6
I100 C2
I101 C2
I102 D2
I108 H13
I113 E10
I114 E10
I115 H13
I116 E10
I117 F8
I118 F9
I119 H3
I120 B9
I121 B10
I122 A11
I123 A13
I124 A11
I125 A13
I126 D10
I127 D10
I129 F14
I130 B8
I131 B9
I132 B9
I133 B9
I134 B9
I135 B9
I136 B9
I137 B9
I138 B9
I139 B9
I140 B8
I141 B7
I142 B7
I143 B7
I144 B7
I145 B7
I146 B7
I147 B8
I148 B8
I149 B7
I150 B6
I151 B7
I152 B7
I153 B6
I154 B6
I155 B7
I156 B6
I157 B6
I158 B7
I159 F12
I160 G12
I161 G12
I162 C7
I163 C7
I164 C7
I165 C2
I166 D4
I174 I7
1
2
3
4
5
6
7
8
9
10
11
12
13
14
1111
15-MT-67GNK
+5Vstb
3100
FTS
DISPLAY PANEL
SVCD
SACD
VGA
CD
STEREO
MCH
22K
DIGITAL
NATURAL
MOTION
3103
27K
I122
I124
I123
3106
47K
A
A
PIC
ALBUM TITLE TRACK
GROUP DTS
CHAPTER INDEX
SCAN SHUFFLE TOTAL REM TRACK TIME
A-B REPEAT TITLE CHAPTER TRACK ALL
PCM MCH SUR 3D SPOTLIGHT
AUDIO
VIDEO HD CD
5V
+5Vstb
2122
220p
6100
BAS216
-31V
7100
5V
49 48
45 44 43 42 41 40 39 38 37 36 35 34 33 32 31
20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
2
1
BC847B
I125
0V
2123
3101
VKK
-31V
G(13)
G(14)
G(15)
2104 C9
2105 C9
2106 C9
2107 I13
2108 I5
82K
220p
S1
3107
100K
7101
BC847B
5V
+5Vstb
-31V
1120
-31V
7102
I121
0V
1
BC847B
P50 interface to SCART
3102
RT-01T
2109 G6
2122 A12
2123 A13
2124 D10
2127 G13
2129 I13
2131 F5
2133 G11
2134 G11
2135 H11
2136 H11
2137 H9
2138 H11
2139 H2
2140 I4
VKK
VKK
3108
220R
82K
RESERVED
5V
B
C
D
E
F
G
H
I
B
C
D
E
F
G
H
I
+5Vstb
-31V
1V / div DC
50us / div
For EU Models with
Double Scart Only
-31V
3104
7103
BC847B
82K
V(15)
V(14)
V(13)
INFO : FIL1 - FIL2 = 3.5 Vac RMS
2104 100p
2105 100p
VKK
+5Vstb
+5Vstb
2141 I7
100p
2106
1100
EH-B
2142 H3
2143 I11
2144 G7
3100 A12
3101 A3
3102 B3
3103 A13
3104 B3
3105 C2
3106 A12
3107 A12
3108 B13
3109 C12
3110 C12
3111 C13
3112 E10
3113 E10
3114 E10
3115 H12
3116 C11
3117 C13
3118 E10
3119 C3
3120 F11
3121 D3
3123 F10
3125 G10
3126 G8
3127 G14
3128 G13
3129 H10
3130 H9
3131 H9
3133 I11
3134 G7
3135 H4
3138 H3
3139 I11
3140 I9
I165
3105
1
2
3
4
+5V
I100
I101
220R
I102
3111
4K7
3117
4K7
3V5
3109
3110
STBLED_CTRL
ON/OFF A
3116
4K7
6108
4K7
I166
4K7
3121
330R
5V
BC857B
7104
STBLED
5V
VDD 40
BZX384-C5V6
2124
65 P90
P(12)
P(11)
P(10)
P(9)
P(8)
P(7)
P(6)
P(5)
P(4)
P(3)
P(2)
P(1)
-31V
I/O PORT 7
I/O PORT 6
VDD
I/O PORT 8
ON/OFF B
1101
1102
1103
1114
-31V66
P91
P92
VAREF 39
VASS 38
P53 37
P52 36
P51 35
P50 34
P47 33
P46 32
P45 31
P44 30
P43 29
P42 28
P41 27
P40 26
P32 25
5V
0V
33n
ON_OFF_A
ON_OFF_B
-33V67
-31V
8 BIT A/D-
CONVERTER
VFT DRIVER CIRCUIT
OPEN/
CLOSE
NEXT
REPEAT
PAUSE
I126
I127
3142
10R
0V
ON_OFF_A
68 P93
-23V69
P94
P95
1V
1V
1V
5V
5V
-23V70
-33V
+5Vstb
+5Vstb
PROGR MEMORY
DATA MEMORY
PROGRAM
COUNTER
71 P96
72 P97
73 PD0
74 PD1
75 PD2
76 PD3
77 PD4
(ROM)
(RAM)
3112
4K7
+5Vstb
-31V
-28V
-33V
-33V
-33V
1104
1105
1106
1112
1113
+5Vstb
3113
4K7
3146
220R
3147
INTERRUPT CONTROLLER
220R
3114
4K7
5V
5V
PLAY
PREV
STOP
AUDIO-MODE
SOUND
3118
4K7
I175 I7
I180 B8
I181 B8
I182 E2
I183 E3
I184 E4
I185 F10
I186 F4
I187 F8
I188 F9
I189 G9
I190 G5
I191 G5
I192 G2
I193 G3
I194 G5
I195 G14
I196 G14
6104
LB3333
6106
I113
7111
7112
5V
5V
5V
5V
16 BIT
SERIAL
INTERFACES
8 BIT
TIMER/COUNTER
LB3333
TIMER/COUNTER
BC857B
I182
BC857B
I114
I116
I185
+5Vstb
VKK
ON_OFF_B
3V
3V
I183
I184
3150
330R
3151
330R
-33V78
VKK
SOUND
AUDIO DIRECT
VKK
5V
5V
VSS
79 P00
80 P01
CLOCK/TIMING CONTROLLER
(I/O PORT 2)
2131
47n
I/O PORT 0
I/O PORT 1
I/O P3
+5Vstb
7401
1108
EH-B
I186
TMP87CH74
SCL
I129
5V
1
2
3
4
5
6
7
8
+5Vstb
+5Vstb
3120
4K7
5V
I188
I189
I159
3123
+5Vstb
+5Vstb
SDA
3141 I3
S1
3152
220R
3153
220R
10R
3125
STBY CONTROL
3142 D13
3143 F5
3144 F4
3146 E1
3147 E3
3148 E2
3149 E4
3150 E2
3151 E3
3152 F1
3153 F3
3154 G2
3155 G4
3156 G2
3157 G4
3158 I8
6100 A13
6101 H13
6103 H3
6104 E1
6105 G1
6106 E3
6107 G3
6108 C10
7100 A4
7101 A13
7102 B4
7103 B4
7104 D2
7105 H4
7106 H11
7108 I10
7109 I11
7111 E2
7112 E3
7113 G2
7114 G3
7401 F9
I160
I161
1119
P50
I190
I191
10R
3127 4R7
I195
I196
+5Vstb
+12V
6105
LB3333
6107
LB3333
7113
7114
BC857B
I192
BC857B
I193
3V
3128 4R7
3V
*
*
I194
3156
3157
330R
*
*
UP SAMPLING
I117
P-SCAN
330R
5V
5V
+12V
VFIL_DC
3129
330R
12V
-27V
I115
6101
PDZ-6.2B
7402
TSOP2236
2102
47n
2136
47u
2135
33n
3130
330R
3131
4K7
2137
22p
5V
7105
BC847B
3
7106
BC337-25
3135
5V
GND
PASS
BAND
PIN
AGC
DEM
I119
2139
4u7
3138
10K
0V
1K
2138
22u
I108
+5Vstb
5V
-25V
OUT
2V / div DC
10us / div
1
VKK
-33V
CIRCUIT
CTRL
INP
6103
2142
1n
3158
220R
3141
100K
5V
VS
2
2129
47n
2107
22u
+5Vstb
BAS216
3133
470R
0V4
BC327-25
7109
7108
BC847B
I121
5V
2103
100u
2141
33n
VFIL_DC
2143
-27V
3140
10K
3139
470R
-25V
10V / div DC
10us / div
22u
V DC vtg measured in STOP-MODE
BARE BOARD : 3139-243-30572
CL 26532105_014.eps
121102
RESERVED
*
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Electrical Diagrams
DVD963SA
7.
58
Layout Display Panel (Top Side)
1100 D1
1102 A22
1103 C16
1104 A21
1105 C21
1106 A19
1108 A16
1111 B8
1112 B16
1113 B2
1119 B9
1120 D1
2103 B14
2107 A18
2127 B17
2136 B15
2138 A14
2139 C14
2143 A13
6104 B2
6105 C1
6107 B2
7109 A14
7402 B13
1101 C22
1114 C19
6106 B16
7106 A15
CL 26532105_015.eps
290802
Electrical Diagrams
DVD963SA
7.
59
Layout Display Panel (Overview Bottom Side)
2102 B5
2109 B14
2122 B12
2123 B12
2124 B17
2129 A5
2131 B13
2133 C12
2134 C12
2135 B8
2137 C8
2140 C11
2141 B10
2142 C11
2144 C14
3100 B11
3101 A15
3102 A15
3103 B11
3104 A15
3105 C22
3106 B12
3107 B12
3108 B13
3109 C2
3110 C2
3111 C3
3116 C2
3117 C17
3118 C16
3119 C22
3120 C6
3121 C22
3123 C12
3125 C12
3126 B12
3127 B6
3128 B6
3129 B8
3130 B8
3131 C8
3133 A11
3134 C21
3135 C11
3138 C11
3139 A19
3140 B8
3141 C10
3142 D22
3143 B13
3144 B13
3146 B20
3147 B7
3148 A20
3149 C6
3150 A20
3151 C6
3152 C22
3153 B22
3154 C21
3155 B22
3156 B21
3157 A22
3158 B10
6100 B12
6101 B5
6108 B16
7100 B18
7101 B12
7102 B17
7103 B17
7104 C22
7105 C11
7108 B8
7111 A21
7112 C7
7113 B22
7114 A21
7401 B15
2104 A16
2105 A16
2106 A17
2108 C11
3112 B16
3113 C16
3114 C16
3115 B5
6103 C10
Part 1
CL 26532105_16a.eps
Part 2
CL 26532105_16b.eps
CL 26532105_016.eps
290802
Electrical Diagrams
DVD963SA
7.
60
Layout Display Panel (Part 1 Bottom Side)
Part 1
CL 26532105_16a.eps
280802
Electrical Diagrams
DVD963SA
7.
61
Layout Display Panel (Part 2 Bottom Side)
Part 2
CL 26532105_16b.eps
280802
Electrical Diagrams
DVD963SA
7.
62
P-Scan Board: Line Doubler
2100 A14
2101 A5
2102 A13
2103 A14
2105 B5
2106 A5
2107 B14
2108 A5
2109 B5
2110 A7
2111 A6
2112 A6
2113 B8
2114 A5
2115 A5
2116 A6
2117 B8
2118 A5
2119 A6
2120 B8
2121 B8
2122 A8
2123 A8
2124 A8
2125 A8
2126 A9
2127 A9
2128 A9
2129 A9
2130 B12
2131 B12
2132 B13
2133 B13
2134 B10
2135 B10
2136 B10
2137 B9
2138 A9
2139 B9
2140 B14
2141 B13
2142 C14
2143 C13
2144 C13
2145 C12
2146 C12
2147 C13
2148 B10
2149 B10
2150 F9
3100 B4
3101 B5
3102 B5
3103 C4
3104 D2
3105 F1
3106 F1
3107 G1
3108 G1
3109 G1
3110 G1
3111 G1
3112 H3
3113 H3
3114 H3
3115 H3
3116 H3
3117 H3
3118 H4
3119 H3
3120 H4
3121 H4
3122 H4
3123 H4
3124 H4
3125 H4
3126 H5
3127 H4
3128 H5
3129 H4
3130 H5
3131 H5
3132 H5
3133 H5
3134 H5
3135 H5
3136 H5
3137 H5
3138 H5
3139 H5
3140 H7
3141 H6
3142 H6
3143 H6
3144 H6
3145 H6
3146 H6
3147 H6
3148 H6
3149 H5
3150 C7
3151 E8
3152 E8
3153 E8
3154 E8
3155 E8
3156 E8
3157 F8
3158 H7
3159 H7
3160 D11
3161 D11
3162 D11
3163 E11
3164 E8
3165 E8
3166 F8
3167 G10
3168 G11
3169 G11
3170 H10
3171 H10
3172 I10
3173 D8
3174 D8
3175 D8
3176 D8
3177 D8
3178 D8
3179 D8
3180 D8
3181 D8
3182 D8
3183 F8
4100 F2
4101 F2
4105 C4
5100 A14
5101 A14
5102 A14
7100 C3
7101 C12
7103 A13
7121 G11
7122 H11
I100 A14
I101 A14
I102 A14
I103 A14
I104 I10
I105 H10
I106 B8
1
2
3
4
5
6
7
8
9
10
11
12
13
14
I100
I101
+1V8_CORE
47u
5100
10u
+1V8_CORE
DECOUPLING CAP FOR FLI2301
DECOUPLING CAP FOR FLI2301
+3V3_D
7103
LF18ABT
P-scan_LineDoubler
2100
+1V8_DAC
I102
I103
5101
10u
A
A
+3V3_D
IN
OUT
GND
CLK
P_CLK
2102
470n
47u
2108
+1V8_PLL
+3V3_DAC
2103
+1V8_PLL
DECOUPLING CAP FOR FLI2301
DECOUPLING CAP FOR FLI2301
100n
+3V3_DAC
10u
5102
10u
2106
3101
150R
2105
100n
47u
3100
10R
3102
27R
1V / div DC
10ns / div
1V / div DC
20ns / div
2107
B
C
D
E
F
B
C
D
E
F
G
H
I
I106
I107
I108
DAC_R P3
P_HSYNC
P_VSYNC
DAC_G
P3
DAC_B
P3
+1V8_DAC
+1V8_PLL
I107 B8
I108 B8
1V / div DC
20us / div
1V / div DC
5ms / div
# 7101
MT48LC2M32B2TG
+3V3_MEM
SRAM_DQM
81 75 55 49 41 35
VDDQ
9
3
43 29 15
VDD
1
7100
DQM0 16
DQM1 71
DQM2 28
DQM3 59
P1
FLI2301
67 CKE
+3V3_MEM
CTRL
LOGIC
68 CLK
20 CS_
17 WE_
18 CAS_
19 RAS_
1V4
HSYNC
VSYNC
1
2
156
OE
P2
P2
P2
P2
3V
3V
P1 CLK
HSYNC1_PORT1
VSYNC1_PORT1
FIELD_ID1_PORT1
IN_CLK1_PORT1
HSYNC2_PORT1
VSYNC2_PORT1
FIELD_ID2_PORT1
VDD1
155
0V
3173 22R
YA(9)
YA(8)
YA(7)
YA(6)
YA(5)
YA(4)
YA(3)
YA(2)
P2
P2
P2
P2
P2
P2
P2
P2
G|Y|Y|Y_OUT_7
G|Y|Y|Y_OUT_6
G|Y|Y|Y_OUT_5
G|Y|Y|Y_OUT_4
G|Y|Y|Y_OUT_3
G|Y|Y|Y_OUT_2
G|Y|Y|Y_OUT_1
G|Y|Y|Y_OUT_0
VSS15
3
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
VSYNC_MONO
27M_CLK
1V5
0V3
1V
P1
2V6
2V6
2V6
2V6
3174 22R
CSN
DQ0
DQ1
DQ2
DQ3
DQ4
2
4
5
7
8
4
3104
3175 22R
1V
22R
2V5
DATA(0)
DATA(1)
3160
3161
22R
5
2V
1V
1V
1V
3176 22R
3177 22R
P1 WEN
P1 CASN
1V
1V
1V
1V
1V
6
BANK0
ROW-
ADDR
LATCH &
DECODER
22R
7
3178 22R
8
3179 22R
DATA(2)
DATA(3)
9
P1
1V
3180 22R
RASN
VSS1
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
IN_CLK2_PORT1
B|Cb|D1_0
B|Cb|D1_1
B|Cb|D1_2
B|Cb|D1_3
B|Cb|D1_4
VDDcore1
MODE REG
VDD8
+3V3_D
3181 22R
YA(1)
YA(0)
1V
1V
P2
P2
DATA(4)
R|V|PR_OUT_7
R|V|PR_OUT_6
R|V|PR_OUT_5
R|V|PR_OUT_4
R|V|PR_OUT_3
R|V|PR_OUT_2
VSS14
3182 22R
3162
3163
22R
22R
22 BA0
23 BA1
DQ5 10
DQ6 11
DQ7 13
DQ8 74
DQ9 76
DQ10 77
P1
BA0
2V
2V
DATA(5)
BANK0
MEMORY
ARRAY
P1 BA1
P1
1V
DATA(6)
VSS2
1V4
DATA(7)
(4,096x256x16)
B|Cb|D1_5
B|Cb|D1_6
B|Cb|D1_7
G|Y|Y_0
+1V8_CORE
3151 22R
25 A0
26 A1
27 A2
60 A3
61 A4
0V6
0V6
ADD(0)
VDDcore7
1V
1V
1V
UVA(9)
UVA(8)
UVA(7)
UVA(6)
UVA(5)
UVA(4)
UVA(3)
UVA(2)
SENSE AMPLIFIERS
2V
1V
1V
1V
1V
1V
P2
P2
P2
P2
P2
P2
P2
P2
DATA(8)
B|U|Pb|C_OUT_9
B|U|Pb|C_OUT_8
B|U|Pb|C_OUT_7
B|U|Pb|C_OUT_6
B|U|Pb|C_OUT_5
B|U|Pb|C_OUT_4
B|U|Pb|C_OUT_3
B|U|Pb|C_OUT_2
VSS13
YB(0)
YB(1)
YB(2)
YB(3)
YB(4)
YB(5)
YB(6)
YB(7)
P2
P2
P2
P2
P2
P2
P2
P2
1V
1V
1V
1V
1V6
1V
3152 22R
P1 ADD(1)
P1
ADD(2)
3153 22R
DATA(9)
G|Y|Y_1
0V6
3154 22R
3155 22R
G|Y|Y_2
DATA(10)
DATA(11)
DATA(12)
DATA(13)
DATA(14)
DATA(15)
DATA(16)
DATA(17)
DATA(18)
DATA(19)
DATA(20)
DATA(21)
DATA(22)
DATA(23)
DATA(24)
DATA(25)
DATA(26)
DATA(27)
DATA(28)
DATA(29)
DATA(30)
DATA(31)
G|Y|Y_3
0V6
0V6
3164 22R
P1 ADD(3)
P1 ADD(4)
G|Y|Y_4
DQ11 79 1V
1V6
3156 22R
1V
1V
G|Y|Y_5
0V6
1V
3165 22R
G|Y|Y_6
DQ12 80
DQ13 82
DQ14 83
DQ15 85
DQ16 31
DQ17 33
DQ18 34
DQ19 36
DQ20 37
DQ21 39
DQ22 40
DQ23 42
DQ24 45
G|Y|Y_7
0V6 62 A5
P1
P1
ADD(5)
ADD(6)
ADD(7)
ADD(8)
ADD(9)
ADD(10)
ROW
ADDR
MUX
DQM0...3
VDD7
+3V3_D
R|Cr|CrCb_0
VDD2
1V
3157 22R
UVA(1)
UVA(0)
P_CLK
P2
P2
P2
B|U|Pb|C_OUT_1
B|U|Pb|C_OUT_0
CLKOUT
63 A6
64 A7
65 A8
66 A9
24 A10
0V6
0V6
0V3
0V3
0V
1V
1V
1V4
3166 22R
VSS3
0V
0V
1V
3183
22R
I/O GATING
R|Cr|CrCb_1
R|Cr|CrCb_2
R|Cr|CrCb_3
R|Cr|CrCb_4
VDDcore2
3105 10K
3106 10K
P1
P1
P1
+3V3_D
DQM DATA LOGIC
READ DATA LATCH
WRITE DRIVERS
VSS12
2150
10p
VDDcore6
+1V8_CORE
BANK
CTRL
LOGIC
CTLOUT4
CTLOUT3
CTLOUT2
VSS4
1V
1V
P_VSYNC P2
P_HSYNC P2
2V7
2V7
CTLOUT1
R|Cr|CrCb_5
R|Cr|CrCb_6
R|Cr|CrCb_7
IN_SEL
P1
CTLOUT0
TEST_OUT1
TEST_OUT0
TEST3
1V
1V
FILM_SYNC_IN
DEV_ADDR1
DEV_ADDR0
SCLK
CLK P1
1V4
SDRAM_CLKIN
VSS11
COLUMN
ADDR
COUNTER/
LATCH
14
21
30
57
69
70
73
3107 100R
3108 100R
SCL_3V3
SDA_3V3
RESET
P1
P1
P2
3V
46
VDD6
+3V3_D
+3V3D_V
+5VD
1V
CLK P1
SRAM_DQM P1
CSN P1
3V
2V5
1V4
2V6
2V6
2V6
2V6
2V6
2V6
SDRAM_CLKOUT
SDRAM_DQM
SDRAM_CSN
SDRAM_BA0
SDRAM_BA1
SDRAM_CASN
SDRAM_RASN
SDATA
47
RESET_N
1V
48
VDD3
49
50
51
52
BA0 P1
VSS5
G
H
1V6
1V
3109
3110 22R
3111 22R
DATA(0)
DATA(1)
DATA(2)
22R
P1
P1
P1
BA1
1V
1V
1V
P1
CASN P1
RASN
SDRAM_DATA0
SDRAM_DATA1
SDRAM_DATA2
P1
DQ25 47 1V
1V
*
*
*
DQ26 48
DQ27 50 1V
3170
0R
COLUMN
DEDCODER
+3V3D_V
+1V8_CORE
+3V3_D
DQ28 51
DQ29 53
DQ30 54
DQ31 56
1V6
1V
WEN P1
0V
0V
VSSQ
VSS
*
*
6
12 32 38 46 52 78 84 44 58 72 86
3172
0R
I
I
RESERVED
# Only use with FLI2310
*
CL26532105_018.eps
191102
V
BARE BOARD : 3139-243-30624
DC vtg measured in STOP-MODE
1
2
3
4
5
6
7
8
9
10
11
12
13
14
E lectrical Diagrams
DVD963S A
7.
63
7
P -S can B oard: E ncoder
1000 B 1
1200 G 1
1202 C 5
1203 A5
2201 H14
2202 H14
2209 E 2
2210 B 10
2211 B 13
2212 B 11
2213 C 13
2214 C 11
2215 C 13
2216 D5
2217 E 6
2218 F2
2220 F13
2221 I11
2222 I11
2223 I12
3201 A6
3203 C 13
3204 C 14
3205 F13
3206 F14
3207 G 13
3208 G 13
3209 H13
3210 G 10
3211 H14
3212 H10
3213 I11
3214 I10
3215 I12
3216 I11
3217 I12
3301 D14
3308 D14
3315 D14
4103 H9
4104 H9
4201 C 1
4202 H6
4203 D13
4204 D13
4205 D13
4206 E 13
4207 E 13
4208 E 13
4209 G 14
4210 H10
4211 I4
1
2
3
4
5
6
8
9
10
11
12
13
14
# 7201
P C F8574T
13
1
INT_
P -scan_E ncoder
S WITC H
A0
A1
INTE R R UP T
LOG IC
1203
#
LP FILTE R
3201
4K7
2
P R OG R E S S IVE
INTE R LAC E
+3V3D_V
+3V3D_V
A
4
5
6
7
9
P 0
P 1
P 2
P 3
P 4
3
A2
3V3
14
15
S C L
3V
3V
S C L_3V3
S DA_3V3
P 1
P 1
2
I217
I218
I219
BUS
C
I
INP UT
FILTE R
S DA
S S S S 2
C ONTR OL
+3V3D_V
I/O BIT
P OR TS
8
S HIFT
R E G IS TE R
+2V5D_V
+2V5A_V
2210
100n
10 P 5
11 P 6
12 P 7
16
8
VDD
VS S
P OWE R -ON
R E S E T
2V / div DC
20us / div
2V / div DC
20ms / div
2V / div DC
20ns / div
B
C
D
E
P _C LK
P _HS YNC
P _VS YNC
2212
100n
2211
1000
I224
100n
100n
24
23
S DA_5V
S C L_5V
P 1
2214
#
7202
ADV7300
P 1
1V / div DC
20ns / div
1V / div DC
20us / div
1V / div DC
5ms / div
10
56
1
41
46
22VS YNC _MONO
I218
I217
P 1,P 2
P 1,P 2
VDD
VDD-IO VA A VR E F
51 S 0
52 S 1
53 S 2
54 S 3
55 S 4
58 S 5
59 S 6
60 S 7
61 S 8
62 S 9
21
HS YNC
1202
P H-S
3203
1K5
3204
22R
R S E T1 47 1V2
20
*
I201
I203
1V
S TANDAR D DE FINITION
C ONTR OL BLOC K
1
S C L_5V
P 1
P 1
YB(0)
P 2
P 2
P 2
P 2
P 2
P 2
P 2
P 2
1927M_C LK
18
I219
P 1,P 2
I225
2
2215
1V
C OMP 1 45
1V5
FOR DE V
YB(1)
YB(2)
YB(3)
YB(4)
YB(5)
YB(6)
YB(7)
4201
+2V5A_V
C OLOR C ONTR OL
BR IG HTNIS
DNR
G AMMA
P R OG FILTE R S
S D TE S TPATTE R N
1V
100n
4203
3
4
17 YB(0)
16
I207
I210
I211
I212
I213
I214
I215
I216
I208
+5VD
S DA_5V
E VALUATION
P 1,P 2
P 1,P 2
I220
1V
1K2
1V
DAC -A 44
12-BIT
DAC
*
2
2
2
1
1
1
1V6
1V
3301
15 YB(1)
14
I221
I222
1V
1V
1K2
DAC -B 43
DAC -C 42
DAC -D 39
DAC -E 38
4204
4205
4206
4207
12-BIT
DAC
0V6
1V
*
*
13 YB(2)
12
3308
P 1,P 2
1K2
+3V3D_V
12-BIT
DAC
P R OG R AMMABLE
R G B MATR IX
11 YB(3)
10
1V
1V
1V
1V
1V
1V
2V
1V
0V3
0V
P 1
P 1
P 1
P 1
P 1
P 1
P 1
P 1
P 1
P 1
2
3
4
5
6
7
8
9
Y0
Y1
Y2
Y3
Y4
Y5
Y6
Y7
YA(0)
YA(1)
YA(2)
YA(3)
YA(4)
YA(5)
YA(6)
YA(7)
YA(8)
YA(9)
P 1,P 2
P 1,P 2
P 1,P 2
2216
100n
3315
100n
2209
4212 I4
7200-A
74LVT74
9
5201 F2
5202 B 12
5203 B 12
6200 G 1
6201 G 2
7200-A E 5
7200-B F3
7201 A10
7202 C 10
7203-A F6
7203-B I3
7203-C I1
7203-D H5
I201 C 6
I203 D6
I207 D1
I208 F1
I209 F2
I210 D1
I211 D1
I212 D1
I213 E 1
I214 E 1
I215 E 1
I216 F1
I217 C 1
I218 C 1
I219 C 1
I220 D14
I221 D14
I222 D14
I223 H6
0V3
0V7
YB(4)
14
Y
U
V
P 3
12-BIT
DAC
8
4
3
2
1
5
7
YB(5)
3V
P 2
P 2
HS YNC
12-BIT
DAC
P 3
P 3
6
VS YNC _MONO
1V5
+3V3D
5
YB(6)
6
P 1,P 2
P 1,P 2
1V5
+3V3D_V
4
+3V3D_V
0V7
1V5
1V2
DAC -F 37
C OMP 2 36
R S E T2 35
4208
2220
12-BIT
DAC
2217
7
3
HIG H DE FINITION
C ONTR OL BLOC K
YB(7)
12 Y8
13 Y9
100n
7203-A
74LVT86DB 14
2
1
5201
+2V5A_V
+5VD
7200-B
74LVT74
10u
100n
100n
3205
1K5
HD TE S TPATTE R N
I209
1
1V5
14
1V
1V
1V
1V
1V
1V
1V
1V
1V
2V
3
14 C 0
VS YNC
UVA(0)
UVA(1)
UVA(2)
UVA(3)
UVA(4)
UVA(5)
UVA(6)
UVA(7)
UVA(8)
UVA(9)
P 1,P 2
P 1
P 1
P 1
P 1
P 1
P 1
P 1
P 1
P 1
P 1
3206
22R
10
11
12
13
9
8
2
3V
3V
C OLOR C ONTR OL
S HAR P NE S S FILTE R
ADAP T FILTE R C TR L
3V
F
2218
15 C 1
P 2 HS YNC
3V
7
16 C 2
17 C 3
18 C 4
+2V5D_V
26 C 5
7
1200
27 C 6
*
P H-B
1
2
3
4
28 C 7
+3V3D
G
H
I
29 C 8
30 C 9
+5VD
S P I_|I2C 19
ALS B-S O 20
S DA-C LKS P 21
S C LK-S I 22
2V5
3210
10K
25 P -BLANK
23 P -HS YNC _
24 P -VS YNC _
48 S -BLANK_
50 S -HS YNC _
+2V5A_V
0V
3V
3V
4209
I2C /S P I
INTE R FAC E
I224 B 1
I225 C 6
2V7
2V7
P _HS YNC
P _VS YNC
P 1
P 1
#
3209
100R
S DA_3V3 P 1
S C L_3V3 P 1
TIMING
#
3211
100R
3212
10K
G E N
P LL
+2V5A_V
27M_C LK
4202
27M_C LK
P 2
3V
P 2
P 2
P 2
HS YNC
*
+3V3D_V
7203-D
3V 49 S -VS YNC _
31 R TC -S C R -TR
VS YNC _MONO
VS YNC
4103
4104
*
2201
100n
2202
100n
4210
74LVT86DB 14
DG ND
11 57
G ND-IO
64
12
2V5
I223
11 1V8
32 63
34 33
40
13
100R
+3V3D_V
7203-B
+3V3D_V
7203-C
7
100R
3214
3213
680R
3216
3217
4K7
+3V3_D
74LVT86DB 14
1V4
2221
3n3
74LVT86DB 14
9
4
P 2
P 2
P _C LK
P _C LK
*
6
1V5
3215
8
5
*
2222
820p
+2V5A_V
10
+2V5A_V
4K7
4u7
7
P 1 R E S E T
7
4212
*
2223
R E S E R VE D
*
# Only use with FLI2310
C L 26532105_019.eps
191102
V
DC vtg measured in S TOP -MODE
1
2
3
4
5
6
7
8
9
10
11
12
13
14
BAR E BOAR D : 3139-243-30624
Electrical Diagrams
DVD963SA
7.
64
P-Scan Board: Video Output
1003-A A9
1003-B C9
1003-C D9
2300 A8
2301 B5
2302 B6
2303 B9
2304 A3
2305 A3
2306 C8
2307 B2
2308 B3
2309 B3
2310 C5
2311 C6
2312 C9
2313 D8
2314 E2
2315 E3
2316 E3
2317 E5
2318 E6
2319 E9
2320 D2
2321 D3
2322 D3
2323 D3
3300 B8
3302 B5
3303 B6
3304 B7
3305 B7
3306 B8
3307 C8
3309 C5
3310 C6
3311 C7
3312 D7
3313 D8
3314 E2
3316 E5
3317 E6
3318 E7
3319 D8
3320 E7
3321 E8
4301 A3
4302 B1
4303 B3
4305 B5
4306 B5
4307 C5
4308 C5
4309 D5
4310 D5
5300 A6
5301 A6
5302 A1
5303 A3
5304 B3
5305 C6
5306 C6
5307 D6
5308 D6
5309 C2
5310 C2
1
2
3
4
5
6
7
8
9
I310 Interlace output
I310 Progressive output
I313 Interlace output
I313 Progressive output
I317 Interlace output
I317 Progressive output
I320 Interlace output
I320 Progressive output
I321 Interlace output
I321 Progressive output
I322 Interlace output
I322 Progressive output
P-scan_VideoOutput
1V / div DC
20us / div
1V / div DC
20us / div
1V / div DC
20us / div
1V / div DC
20us / div
1V / div DC
20us / div
1V / div DC
20us / div
1.00 V / div DC
20us / div
1V / div DC
20us / div
1V / div DC
20us / div
1V / div DC
20us / div
1V / div DC
20us / div
1V / div DC
20us / div
+VDD_PSCAN
+2V5D
I303
4301
A
B
C
D
E
A
B
C
D
E
#
7300
LF25C
I302
+5VA
I323
5302
5303
100u
Y
2300
100n
+3V3D
+5VD
+2V5A_V
IN
OUT
GND
I304
10u
1003-A
I320
YKC21-3930
2
1
I300
5300
4u7
5301
1u5
7301
4302
3
Y
#
P2
P1
4305
4306
5
2
AD8061
1
0V3
I301
I310
3300
75R
DAC_G
0V3
Y
4
I306
4303
0V3
2307
470n
5304
100u
3306
1K2
+2V5D_V
3305
1K2
I305
I311
+5VA
U
2306
1003-B
I321
100n
7302
AD8061
1
YKC21-3930
4
3
5305
4u7
5306
1u5
3
P2
P1
U
#4307
4308
5
2
I313
0V6
I312
3307
75R
DAC_R
1V2
U
4
I319
5309
0V6
+3V3_DAC
10u
+VDD_PSCAN
5310
10u
+3V3_D
3312
1K2
3313
1K2
I314
I315
5311
10u
+3V3D_V
+3V3_MEM
+5VA
V
1003-C
5312
10u
2313
100n
I322
YKC21-3930
6
5
5307
4u7
5308
1u5
7303
3
P2
P1
V
#
4309
4310
5
2
I317
AD8061
1
0V6
I316
3319
75R
DAC_B
1V2
V
4
0V6
3314
4R7
I307
I308
I309
+5VD
3320
1K2
3321
1K2
+5VA
I318
RESERVED
# Only use with FLI2310
*
V
DC vtg measured in STOP-MODE
CL 26532105_020.eps
110502
BARE BOARD : 3139-243-30624
1
2
3
4
5
6
7
8
9
Electrical Diagrams
DVD963SA
7.
65
Layout P-Scan Board (Overview Top Side)
1000 E3
1003 D17
1200 G5
1202 C2
1203 G16
2100 F6
2101 G8
2103 F7
2105 F11
2106 F11
2107 G8
2108 E12
2110 G9
2111 G10
2114 C10
2115 C9
2116 C8
2119 G9
2123 G9
2124 D11
2126 C9
2127 C10
2129 G10
2133 B5
2134 E11
2135 F11
2136 E11
2139 E11
2140 B4
2144 B4
2145 B4
2146 B3
2148 E11
2149 F11
2150 F12
2201 A3
2202 G2
2210 G13
2216 F13
2217 F13
2221 D14
2222 D14
2223 E13
2300 C16
2301 C15
2302 C15
2304 C15
2306 D15
2308 E14
2311 E15
2313 F15
2314 F14
2315 G16
2318 F15
2320 D12
2321 G7
2322 E12
2323 D4
3100 F11
3101 F11
3102 F11
3105 C9
3106 C8
3107 C8
3108 C8
3109 B7
3110 B6
3111 B7
3112 B7
3113 B6
3114 B6
3115 D5
3116 B7
3117 D5
3118 D5
3119 B6
3120 C6
3121 C6
3122 D6
3123 D6
3124 D6
3125 D6
3126 C6
3127 C6
3128 C6
3129 D5
3130 D4
3131 D4
3132 D4
3133 C6
3134 C6
3135 D4
3136 D4
3137 D4
3138 C6
3139 D4
3140 C6
3141 D4
3142 D5
3143 D5
3144 D5
3145 C6
3146 D4
3147 D4
3148 D5
3149 D4
3150 G10
3151 D12
3152 D12
3153 C12
3154 C12
3155 C12
3156 C12
3157 C12
3158 C6
3159 C6
3160 B6
3161 B6
3162 B6
3163 C6
3164 C12
3165 C12
3166 C12
3173 C11
3174 C12
3175 C11
3176 B12
3177 B11
3178 B12
3179 B11
3180 B12
3181 B11
3182 B12
3183 F12
3204 B14
3205 D14
3206 D14
3212 B14
3213 D13
3216 D14
3301 B15
3302 C15
3303 B15
3304 B15
3311 D15
3318 F15
4100 C9
4208 C14
4211 G11
4305 B15
4306 C15
4309 E15
4310 E15
5100 F5
7101 C4
7103 G6
7200 G12
7202 C13
7203 F12
7300 F14
7301 C15
7302 D15
7303 F15
4101 C9
5101 F6
4202 F13
4203 B14
4204 C14
4205 C14
4206 C14
4207 C14
5300 C15
5302 G14
5308 F15
5310 F6
6201 G5
7100 E9
Part 1
Part 2
CL 26532105_021.eps
110502
Electrical Diagrams
DVD963SA
7.
66
Layout P-Scan Board (Part 1 Top Side)
Electrical Diagrams
DVD963SA
7.
67
Layout P-Scan Board (Part 2 Top Side)
Electrical Diagrams
DVD963SA
7.
68
Layout P-Scan Board (Overview Bottom Side)
2102 F12
2109 E7
2112 F10
2113 F7
2117 G7
2118 D10
2120 F7
2121 F7
2122 F10
2125 E10
2128 E10
2130 C12
2131 C13
2132 C13
2137 F7
2138 E10
2141 C13
2142 C14
2143 C14
2147 C13
2209 D16
2211 C4
2212 C5
2213 B4
2214 B5
2215 B4
2218 E16
2220 C4
2303 C2
2305 C3
2307 F4
2317 F3
2319 F2
3103 D8
3104 D8
3167 G14
3168 C16
3169 C16
3170 F14
3171 F13
3172 F14
3201 G2
3203 B4
3207 D5
3208 D5
3209 D5
3210 D5
3211 D5
3214 B5
3215 D4
3217 C9
3300 C2
3305 C2
3306 C2
3307 D2
3308 C3
3309 D3
3310 E3
3312 D2
3313 E2
3314 G4
3315 C3
3316 F3
3317 F3
3319 F2
3320 E3
3321 F3
4103 C8
4104 B8
4105 D8
4201 E14
4209 D5
4210 D4
4212 F6
4301 F4
4302 G4
4303 E4
4307 D3
4308 D3
5102 G11
5201 D16
5202 C5
5203 B4
5301 B3
5303 F4
5304 F5
5305 D3
5306 E3
5307 F3
5309 E6
5311 F6
5312 E14
6200 G13
7121 F14
7122 F13
7201 G5
2309 E5
2310 D3
2312 D2
2316 G3
CL 26532105_022.eps
110502
Electrical Diagrams
DVD963SA
7.
69
Layout P-Scan Board (Part 1 Bottom Side)
Electrical Diagrams
DVD963SA
7.
70
Layout P-Scan Board (Part 2 Bottom Side)
Electrical Diagrams
DVD963SA
7.
71
Standby Board
Layout Standby Board (Top Side)
1
2
1200 B3
1201 B2
1202 A2
6200 A2
1200 A2
1201 B1
1202 B1
3200 A1
6200 A1
I200 A1
I201 A2
I202 B2
I203 B2
I204 B2
STANDBY BOARD
A
B
A
B
TO 1131 OF DISPLAY BOARD
1200
I201
1
2
+5Vstb
Stdby_Ctrl
I202
I203
I204
STANDBY
1201
3
STBKEY+
STBKEY-
CL 26532105_025.eps
270802
4
*1202
440053
Layout Standby Board (Bottom Side)
SPEC
CL 26532105_024.eps
290802
BARE BOARD : 3139-243-30491
1
2
CL 26532105_026.eps
290802
Electrical Diagrams
DVD963SA
6
7.
72
Double SCART Panel: Switching (Only for EU models)
1300 C1
2100 B7
2101 B6
2102 A10
2103 A10
2104 H5
2105 F6
2106 F7
2107 A11
2108 C9
2109 A11
2110 D8
2111 D7
2112 B9
2113 A10
2114 C2
2115 C2
2116 C2
2117 H9
2118 G9
2119 H5
2120 H5
2121 G5
2122 G5
3100 A3
3102 D5
3104 B5
3105 B3
3106 B4
3107 F6
3108 F7
3109 B5
3110 C5
3111 C4
3112 D3
3113 H9
3114 H5
3115 H5
3116 H9
3117 E3
4101 A5
4102 D2
4103 E2
7101 A5
7102 C5
7103 C4
7104 D4
7105 D3
7106 B5
7500 A6
7501 B9
1
2
3
4
5
7
8
9
10
11
12
13
11V3
SWITCHING
+8VSTBY
+12V+8VSTBY
BC327-25
7101
*
+12V
A
B
C
D
E
F
A
B
C
D
E
F
7500
LF80C
3100
4R7
+8VSTBY
12V
4101
1
3
*
IN
OUT
11V9
GND
7501
STV6410A 33
12V
2
16
12
23
55
VCCV1 VCCV2 VCCV3 VCC12 VCCA
4V
FBOUT_TV
S2-14
S2-16
19 FBIN-ENC
FBOUT-TV 17 4V
0V
7106
BC327-25
3104
4K7
BOUT_TV
GOUT_TV
FBIN_AUX
18 FBIN-AUX
46 BIN-ENC
32 BIN-AUX
44 GIN-ENC
61
S2-23
1V3
1V3
1V3
BOUT-TV
0V
2V
GOUT-TV 63
BO
S1-1
S2-13
S2-15
2112
100n
RCOUT_TV
BC_AUX
RCOUT-TV
VOUT-RF
1
S2-24
S1-2
2V
2V
M
M
9
GO
TP1
0V
GIN_AUX
GIN-AUX
30
1300
S2-27
2V
2V
470n
6V5
S1-1
S1-2
S1-3
1
2
3
FILTER 11
BO
GO
RO
TRAP
YCVBSOUT-TV
10K
YCVBSOUT_TV
RO
42 RCIN-ENC
28 RCIN-AUX
40 CIN-ENC
48 CIN-VCR
24 YCVBSIN-AUX
54 CIN-TV
7102
BC847B
S1-3
2116
470n
TP2
TP3
1V6
2V4
3
S2-17
S2-25
3110
RCIN_AUX
S2-28
2V
3V
0V7
M
M
COUT_AUX
2115
470n
4
13
15
7103
BC847B
COUT-AUX
0V
5
S2-30
S2-11
YCVBSIN_AUX
BC_TV
2V
3V
YCVBSOUT_AUX
2114
YIN
6
1V6
YCVBSOUT-AUX
S2-29
2108
100n
7
M
2V2 36 YCVBSIN-ENC
50 YCVBSIN-VCR
34 CVBSIN-STB
8
SLB_VCR
S1-6
9
STEREO_L
+5V
10
11
12
13
14
15
16
17
18
19
20
21
22
COUT-VCR
5
7
4V
51 VREF
M
M
YCVBSOUT-VCR
52 YCVBSIN-TV
26 YIN-AUX
2V
SLB_TV
STEREO_R
+12VSTBY
4102
SLB-TV 25
SLB-VCR 27
11V
5V8
-0V5
S2-12
0V
7104
BC847B
SLB_VCR
SLB_AUX
7105
BC847B
S1-6
38
2V2
4V
YIN-ENC
-5V
SLB-AUX 31
S2-26
3102
S2-18
YCVBSIN_TV
45 LIN-ENC
41 LIN-STB
53 LIN-TV
LOUT-CINCH 59
ROUT-CINCH 58
CVBS
CIN
10K
0V7
0V7
LIN_TV
S2-10
S2-22
4V
M
M
LOUT_AUX
ROUT_AUX
49 LIN-VCR
35 LIN-AUX
43 RIN-ENC
39 RIN-STB
LOUT-AUX
ROUT-AUX
6
4
S2-21
S2-19
4V
4V
STEREO
MONO
LIN_AUX
4V
4V
S2-4
S2-5
KILL
P50
I2C_CLK
LOUT-VCR 62
ROUT-VCR 60
I2C_CLD
STEREO
MONO
RIN_TV
S2-8
56 RIN-TV
47 RIN-VCR
37 RIN-AUX
21 SCL
4V
AOUT-RF
LOUT-TV
8
2
M
M
TP25
LOUT_TV
ROUT_TV
4V
4V
S2-9
S2-7
Audio Pinknoise
RIN_AUX
4V
S2-20
ROUT-TV 64
TO 1301 of A/V BD
OUT
TP5 C_ENC
3V3
ch1
ch1
ch1
3V3
22 SDA
1
1
20 ADD
GNDV1
29
GNDV2 GNDV3 GNDA
14 10 57
200mV / DIV AC
20us / DIV
200mV / DIV AC
10ms / DIV
2122
100n
G
H
G
H
TP4
TP1 B_vid in
TP2 G_vid in
TP3 R_vid in
TP4 CVBS
TP6 Y_vid
2121 100u
10u
2119
2104
TP6
200mV/div AC
20us/div
200mV/div AC
20us/div
200mV/div AC
20us/div
200mV/div AC
20us/div
200mV/div AC
20us/div
100n
3114
TP25
10K
TP5
TP25
470R
3115
3113
10K
470R
2120
3116
OPTION
*
CL 16532086_023.eps
260701
470n
BARE BOARD 3139 243 30291
11 12
V
DC vtg measured in STOP-MODE
1
2
3
4
5
6
7
8
9
10
13
Electrical Diagrams
DVD963SA
6
7.
73
Double SCART Panel: Switching (Only for EU models)
1000 A12
1001 F12
1302 A12
2200 A7
2201 A9
2202 A7
2203 A7
2204 B7
2205 C12
2206 C9
2207 C9
2208 D9
2209 D9
2210 D11
2211 E7
2212 E7
2213 F7
2214 F7
2215 F7
2216 G7
2217 H8
2218 G11
2219 H7
2220 H8
2221 I7
6200 A11
6201 A11
6202 A10
6203 B11
6204 B9
6205 B9
6206 C11
6207 C11
6208 C11
6209 D9
6210 D11
6211 D11
6212 E10
6213 E9
6214 F9
6216 F9
6217 G9
6218 G10
6219 H10
6220 H10
6221 H11
6222 H10
6223 I10
6224 I10
6225 I10
6227 A11
6228 B10
6229 F9
6230 F9
7200 A9
7201 B9
7202 B8
7203 C8
7204 D8
7205 D3
7206 D5
7207 D2
7208 D1
7209 D8
7210 E4
7211 E6
7212 H5
7213 H3
7214 H1
7215 I4
1
2
3
4
5
7
8
9
10
11
12
-5V
2200
ROUT_TV
3200
220R
3202
S1-7
S1-8
1302
Molex-5267
1
TP25
4u7
0V7
BZX284-C15
BZX284-C15
SCART
2202
RIN_TV
3203
27K
2
6200
6227
*
470R
3204
*
4u7
7200
*
BC817-25
3V3
2V
KILL
S1-4
A
A
47K
S1-9 LOUT_TV 2203
4u7
TV-SCART2
3205
1000
BZX284-C15
6201
220R
0V7
1
3207
27K
*
2
3
TP25
Audio Pinknoise
3208
*
BZX284-C15
7201
BC817-25
47K
3209
OUT
2204
TP25
S1-10
6228
4
5
LIN_TV
BC_TV
SLB_TV
ch1
*
6204
BZX284-C15
S1-11,S2-11
S1-12
470R
27K
4u7
-2V
*
7218
BC847B
1
3272
6
BZX284-C15
TP1A
6203
B
C
D
E
F
*
B
C
D
E
F
2222 I8
2223 I10
2224 I8
4200
7
+8Vstby
7202
6205
3210
470R
8
2225 I7
200mV / DIV AC
10ms / DIV
SLB_AUX S2-26
FBOUT_TV S1-14
GOUT_TV
BZX284-C15
S1-13
100p
2205
3211
100R
9
2226 A9
2227 F11
2228 F11
2229 F10
2230 G11
2231 G11
3200 A8
3201 A9
3202 A8
3203 A9
3204 A8
3205 A8
3206 A9
3207 A8
3208 A8
3209 B8
3210 B9
3211 B7
3212 C9
3213 C9
3214 C8
3215 C7
3216 C8
3217 D8
3218 D7
3219 D1
3220 D1
3221 D2
3222 D4
3223 D5
3224 D8
3225 D7
3226 D3
3227 D8
3228 D2
3229 D6
3230 D10
3231 D3
3232 D7
3233 E5
3234 D6
3235 D9
3236 E4
3237 E3
3238 E6
3239 E4
3240 E8
3241 E8
3242 F8
3243 F8
3244 A5
3245 F8
3246 F8
3247 F8
3248 G8
3249 G1
3250 G7
3251 G4
3252 G7
3253 H2
3254 H7
3255 H2
3256 H3
3257 H5
3258 H5
3259 H6
3260 H3
3261 H1
3262 I8
BAT254
3212
BC847B
10
11
12
13
14
15
16
17
18
19
20
21
1V3
0V7
TP2A
-5V
6206
If FBOUT_TV line is low C is input on the BC_TV pin 7 of TV SCART2
If FBOUT_TV line is high B is output on the BC_TV pin 7 of TV SCART2
*
68R
470R
220p
BZX284-C15
+8Vstby
3213
470R
2206
2207
6207
*
BZX284-C15
S1-15 RCOUT_TV
S1-14 FBOUT_TV
3215
100R
TP3A
7203
BC847B
S1-16
BOUT_TV
3214
3216
+8VSTBY
220p
6208
1V3
BZX284-C15
68R
+8Vstby 0V7
BZX284-C15
6209
220p
*
3217
4V
3218
6210
*
7204
BC847B
150R
3224
2208
7216 I6
7217 I8
7218 B5
7219 E2
7220 I2
100R
470R
3226
150R
470R
BC857B
7205
7206
BC847B
220p
1V3
3225
3V3
8V
4K7
8V
+8Vstby
S2-11
S1-17
BC_TV
2209
3235
3228
2K2
3229
68R
3227
7207
BC847B
0V
0V7
-0V4
0V
YCVBSOUT_TV
3232
100R
7209
BC847B
68R
*
7208
BC847B
TP14
0V7
1V6
3236
4K7
-5V
7210
BC817-25
1V
*
-0V4
-5V
2211
S1-18
S1-5
YCVBSIN_TV
P50
*
*
0V7
10u
3278
560R
0V
3239
4K7
7211
BC817-25
S1-19
2212
3276
4K7
ROUT_AUX
3240
7219
-5V
-0V4
BC817-25
6213
BZX284-C15
AUX-SCART1
1K
3241
0V7
4u7
*
2227
100p
1001
2213
3242
470R
47K
3243
47K
S1-20 RIN_AUX
6229
TP1A B_vid out
TP2A G_vid out
TP3A R_vid out
TP14 CVBS out
BZX284-C15
*
1
6214
4u7
2214
4u7
*
2
3
T
BZX284-C15
S1-21
3245
1K
LOUT_AUX
6216
BZX284-C15
2228
100p
3246
47K
*
4
5
2229
100p
500mV/div AC
20us/div
500mV/div AC
20us/div
6230
500mV/div AC
20us/div
BZX284-C15
500mV/div AC
20us/div
*
2215
4u7
3247
470R
S1-22 LIN_AUX
6
6217
3248
47K
*
7
-5V
FBIN_AUX
S2-23
If FBIN_AUX line is low C is output on the BC_AUX pin 7 of AUX SCART1
If FBIN_AUX line is high B is input on the BC_AUX pin 7 of AUX SCART1
8
BZX284-C15
2216
220p
S1-24
2218
100p
9
6218
S2-24 BC_AUX
S1-25
COUT_AUX
+8VSTBY
*
10
11
12
13
14
15
16
17
18
19
20
21
G
H
G
H
BZX284-C15
3250
47K
3252
S1-26
S2-26
SLB_AUX
6219
*
470R
3254
75R
2217
220p
BZX284-C15
7212
BC847B
2V4
8V
6220
3255
4K7
*
BC857B
7213
S2-24
BC_AUX
S1-27
8V
3257
75R
1V6
*
GIN_AUX
2219
BZX284-C15
0V
7214
10u
BC847B
BZX284-C15
2220
-1V
3263 H4
3264 I6
3265 I3
3266 I7
3267 I4
3268 I7
3269 I9
3270 I9
3271 I8
3272 B4
3273 A4
3275 I1
3276 E1
3277 I2
3278 E3
3279 A5
4200 B9
4201 E3
4202 I2
220p
75R
6222
*
3263
4K7
7215
2221
RCIN_AUX
S1-28
3262
BC817-25
-1V
S1-23
S2-23
6224
*
FBIN_AUX
10u
75R
220p
2222
1V6
+8Vstby
BZX284-C15
BZX284-C15
*
*
3267
4K7
3266
3268
100R
7216
7217
BC847B
-5V
3277
560R
-0V7
YCVBSOUT_AUX
BC817-25
S1-29
3269
-1V
6223
I
*
I
-5V
3275
2K7
7220
BC817-25
1V6
2223
220p
68R
470R
3270
1V
0V
220p
2224
75R
3271
2225
10u
YCVBSIN_AUX
6225
S1-30
*
CL 16532086_024.eps
190701
BZX284-C15
V
DC vtg measured in STOP-MODE
OPTION
BARE BOARD 3139 243 30291
*
1
2
3
4
5
6
7
8
9
10
11
12
Electrical Diagrams
DVD963SA
7.
74
Layout Double SCART panel (Only for EU models) (Overview Top Side)
Part 1
Part 2
CL16532007_95a.eps
CL16532007_95b.eps
CL 16532007_095.eps
240401
Electrical Diagrams
DVD963SA
7.
75
Layout Double SCART panel (Only for EU models) (Part 1 Top Side)
CL 16532007_95a
240401
Electrical Diagrams
DVD963SA
7.
76
Layout Double SCART panel (Only for EU models) (Part 2 Top Side)
CL 16532007_95b.eps
240401
Alignments
8.
8. Alignments
Not applicable.
9. Circuit Descriptions and List of Abbreviations
Index of this chapter:
1. Introduction
9.2.3 Operation
2. Power Supply Unit (PSU).
3. Loader/Mono Board.
4. Audio Video (A/V) Board.
5. Front Display Board.
6. Abbreviations
RECTIFIER
AC
EMI-FILTER
T1
300V
+12V
etc
DM1
MAINS
C5
DC
7. IC Data
CM1
Q1
IC1
1
D
S
G
12
11
Notes:
5
•
•
•
See also the SD4.00SA_CH Service Manual (3122 785
12480).
Figures can deviate slightly from the actual situation, due
to different set executions.
For a good understanding of the following circuit
descriptions, please use the diagrams in chapter 6 and 7.
Where necessary, you will find a separate drawing for
clarification.
4
13
RSENSE1
C7
+12V
IC2
IC3
9.1 Introduction
RSENSE2
The DVD963SA is a model from the SACD 2002 'single disc'
range. It uses a 2nd generation Philips SACD mono board,
based on the Furore 2 DSD/DST decoder.
CL 26532053_024.eps
010502
Below you will find a circuit description of the several modules.
Figure 9-1 Power Supply
Mains Input Circuit
9.2 Power Supply Unit
The bridge rectifier D6110 rectifies the mains voltage, after
which C5 (2117) smoothens it. The DC voltage across this
capacitor is the DC input voltage (approximately 300V), to pin
1 of transformer T1 (pin 9 of 5190) and pin 1 of IC1 (7130).
The mains input also consists of a (differential mode) lightning
protection DM1 (R3110) and a (common mode) lightning
protection CM1 (D6114/15).
9.2.1 Introduction
This supply is a Switching Mode Power Supply (SMPS), which
uses the control IC TY720xx to produce pulses to drive the
power ‘switch’ (MOSFET). The TY720xx (IC7130) is a high
performance, current mode controller for DC-to-DC converter
applications.
Start-up Circuitry
The operation frequency varies with the circuit load. When the
output power demand decreases, the switching frequency
raises, with a maximum frequency of 125 kHz (defined by
C2130 at pin 5). At this point, the internal VCO takes over and
starts to decrease the switching frequency.
This has some benefits compared to a ‘fixed frequency’ flyback
converter. The efficiency is better, which results in a lower
power consumption.
The rectified voltage from the bridge rectifier is connected to
pin 1 of IC1. This voltage will charge the Vcc capacitor C7
(C2131). When this voltage, (at pin 13), reaches the start-up
threshold of min. 15V, the control circuit starts to operate.
After start-up, the control IC requires a sinking current, which
the start-up circuitry cannot deliver. Therefore a take-over
circuitry (a coupled winding of transformer T1) is present. The
voltage at this point will take over the supply voltage at pin 13
of the IC1(7130).
9.2.2 Output Voltages
If the take-over circuit does not function, IC1 (7130) will switch
'off' again at the minimal operating voltage of +8V. The whole
operation cycle will repeat itself with audible hiccup sound if
take-over is not present.
The following output voltages are present on connector 0201:
•
•
•
•
•
•
Pin 1 and 2: +3V3.
Pin 4: +12V
Pin 5: +12STBY.
Pin 7: +5V.
Pin 9: -12V.
Pin 11: -32V.
Secondary Voltage Sensing
The secondary voltage regulating circuit comprises of opto-
coupler IC2 (7190), which isolates the error signal from the
control IC on the primary side, and a reference component IC3
(7290, TL431).
Note: The suffix 'STBY' indicates that the supply is not
switched 'off' during Standby Mode. Power switching is done
with the STBY_CTRL signal from the slave processor.
Circuit Descriptions and List of Abbreviations
9.3 Loader/Mono Board (for diagrams see
9.
SD4.00SA_CH Service Manual)
K
Loader
R
2.5V
DVDalas2+
Loader-interface
A
CL 96532065_071.eps
130799
Iguana
HF
Buffer
Program
Memory
(front-end
processor)
Figure 9-2 TL431
2
This reference component has two functions:
I S
S2B
•
•
A very stable and accurate reference diode
A high gain amplifier.
HF
SMI
(SDRAM)
When the output voltage increases (due to a reduction in the
load), the voltage across RSENSE-2 (R3290/R3291) increases to
above the internal reference voltage of 2.5V. The TL431 will
conduct and the current through the opto-coupler will increase.
This results in an increase of the voltage at pin 4 of IC1, which
will reduce the 'on' time of Q1 (FET 7125). In the event of an
output voltage decrease (due to an increase in the load), the
control circuit will operate in the opposite way.
STi55XX
(back-end
processor)
EMI
(FLASH)
PCM
FURORE 2
Audio
Video
Others
Module
Interface
Primary Current Sensing
The current through FET Q1 will result in a voltage drop across
RSENSE-1 (R3120-23). This line goes to pin 11 of IC7130,
which is the current sense input. The higher the input voltage,
the more the primary current is limited. In this way, the
maximum output power of the power supply is limited.
CL 26532053_022.eps
260402
Figure 9-3 Block Diagram Loader/Mono board
The SD4.00_SA_CH (SACHI_4) is the 2nd generation Philips
Architectural Standard Design of SACD mono board based on
Furore 2, and will be used in the new generation of SACD
players. It is designed in a multi-task way so that it can support
the following optional main functions:
Under-voltage Protection
If the supply voltage at pin 13 of IC7130 drops below 7.2V
(typical), e.g. due to a shorted secondary voltage or excessive
load, the drive pulse at pin 12 is disabled and the controller will
switch 'off'.
•
SD4.00_SA_CH: Support SACD player with 5-disc
changer.
•
•
SD4.00_SA: Support SACD player with single-disc.
SD4.00_CH: Support DVD player with 5-disc changer but
without SACD playback.
SD4.00_SA_I2C: Support SACD player with single-disc
and I2C slave.
Over-voltage Protection
An internal over-voltage protection circuitry continuously
monitors the Vcc pin. If, after start-up, this voltage exceeds
40V, the internal latch circuit is triggered, the output buffer is
disabled, and the SMPS goes into over-voltage protection.
Now a complete restart sequence is required.
•
The SD4.00_SA_CH (SACHI_4) module consist of the
following key components:
1. OPU: Mercury 2 Loader VAL6011/14 (slim type) for a
single-disc SACD player, or DVD VAM6001/14 mechanism
for a 5-disc SACD changer.
Note: If the event of the over-voltage situation remains present,
the SMPS will go in sequence of protection, start-up, protection
and the cycle repeats. This effect is highly audible.
2. Front-end: M2 Basic Engine.
3. Back-end: DVD Host Processor STi55xx and Furore 2
SACD DSD/DST decoder.
4. Power supply: To convert the PSU voltages to the correct
values.
5. Reset circuit: This circuit that the booting of the several
devices on the mono board takes place in the correct order.
9.3.1 The Optical Pick-up Unit (OPU)
The Mercury 2 Loader has an optical unit consisting of two
lasers:
•
•
One for CD with a wavelength of 780 nm.
One for DVD with a wavelength of 650 nm.
The TZA1033 (item 7105) controls the data from these lasers,
and the supply to them.
9.3.2 Front-end: the Servo Part
The front-end consists of:
•
The Loader interface
Circuit Descriptions and List of Abbreviations
9.
•
•
The Servo Processor/Decoder
The Interface/Program Memory
multiplexed parallel interface. Both of these interfaces provide
access to 32 8-bit registers for control and status.
The Loader Interface
The Interface/Program Memory
The interface between front-end (SAA7812) and back-end
(Sti55xx) is via:
•
•
The TZA1033HL/K2 (or DVDALAS2plus, item 7105) is an
analogue pre-processor and laser supply circuit. It contains
data amplifiers and several options for radial tracking and focus
control.
It is possible to optimise the dynamic range of this pre-amp/
processor combination for the LF servo and RF data paths. The
gain in both channels is separately programmable. This will
guarantee an optimal playability for all kind of discs.
Also, a dual laser supply is implemented, with fully automatic
laser control including stabilisation and an ON/OFF switch, plus
a separate supply pin for power efficiency.
I2S bus (BCLK, DATA, WCLK, FLAG, SYNC and V4).
S2B bus (RXD_S2B, TXD_S2B, CPR_S2B and
SUR_S2B).
•
Miscellaneous I/O ports (RSTNF= front-end reset, EANF=
front-end processor boot select).
Service tip: These lines contain series resistors (47 or 100 Ω)
for easy hardware debugging, and for EMC/noise reduction of
the high-speed I2S lines.
The front-end processor SAA7812 (Iguana) has two boot
modes: normal boot from flash memory, or serial mode.
The boot selection is via the EANF pin. The Iguana, samples
the EANF signal level once during boot-up. Once boot-up is
completed, this pin is no longer used for this purpose.
However, in the SD4.0SA_CH circuit, the EANF is also
connected to the flash memory. Therefore, when this pin is
LOW, the lower 1 Mbits of the memory is accessible.
Conversely, when this pin is HIGH, the upper 1 Mbits is
accessible.
The Servo Processor/Decoder
In the SD3.0 module, the servo signals were fed to the MACE2
servo processor, while the HF output signal was fed to the
SAA7335 decoder. In the new SD4.0SA_CH module, these ICs
are combined into one chip: the SAA7812 Iguana.
This chip contains the following blocks: channel decoder, block
decoder, servo processor, and microcontroller.
The servo circuit in the SAA7812 (item 7207) takes care of the
servo controls.
Under front-end normal operation, the program memory (less
than 1 Mbits in size) should reside in the lower bank. Therefore,
the EANF pin should be LOW at all times. Since the actual flash
memory used is 2 Mbits, the upper 1 Mbits is unused. This area
is reserved for possible use by the front-end self-diagnostic
software, or flash download application.
In a CD system, there are some twelve control loops active.
About six of them are needed to adjust the servo error signals
that is once per disc rotation. It also adjusts offsets, signal
amplitudes, and loop gains (AGCs), to enlarge system
robustness and to avoid expensive potentiometer adjustments
in production.
The other six loops determine the laser spot position on the
disc in the radial, axial (focus), and tangential directions.
It also has to take care that the spot accesses a required
position as fast as possible. This access system consists of two
parts, namely the actuator and the sled, which are (within a
certain range) mechanically and electrically independent.
Therefore, during an access, the servo has to control as well
the actuator as the sled.
The analogue signals, from the diode pre-processor, are
converted into a digital representation using A/D converters.
For the communication between the host processor (STi55xx)
and the servo processor, the S2B bus is used. This bus
supports full-duplex asynchronous communication.
9.3.3 Back-end: the Digital Part
The back-end consists of:
•
•
•
•
•
•
DVD back-end processor
SACD DSD processor
Audio output
Video output
Clock factory
Miscellaneous
DVD Back-end Processor
The SD4.0SA_CH is designed for the Sti55xx family. Some of
the DVD related features of these ICs are:
The SAA7812 is also a combined CD/DVD compatible
decoding device. The device operates with built in hardware for
CD/DVD error correction and de-interleaving operations. It
decodes EFM or EFM+HF signals directly from the laser pre-
amplifier, including analogue front-end, PLL data recovery,
demodulation, and error correction.
Processor overview
Function
STi5580
STi5588
STi5519
Basic CD/VCD/DVD decoding
Extra 2-channel of I2S output (PCMDATA3)
Karaoke
X
X
X
X
X
X
X
X
X
DTS
Its analogue front-end input (the channel decoder), converts
the HF input signal to the digital domain via an 8-bit ADC,
preceded by an AGC circuit to obtain the optimum performance
from the converter. An external resonator clocks this block.
This subsystem recovers the data from the channel stream. It
corrects asymmetry, performs noise filtering and equalisation,
and finally recovers the bit clock and data from the channel
using a digital PLL.
Audio post processing (equalizer, level meter, etc)
DVD audio
X
X
X
Progressive scan at analog video output
CL 16532163_048.eps
020902
Figure 9-4 Processor overview
The demodulator part detects the frame synchronisation
signals and decodes the EFM (14 bit) and EFM+ (16 bit) data
and sub-code words into 8-bit symbols. Via the serial output
interface, the I2S data (audio and video) go to the DVD decoder
STi55xx.
The STi5580 has the same architecture as the STi5508 (used
in earlier DVD generations), and is pin-to-pin compatible.
It works on 3.3 V (VDD), and comprises the following functions:
•
•
Video decoder, which supports MPEG1 and MPEG2.
Audio decoder that supports AC-3, MPEG1, MPEG2, DTS,
PCM, S/PDIF, and MP3.
The spindle-motor interface provides both motor control signals
from the demodulator and, in addition, contains a tachometer
loop that accepts tachometer pulses from the motor unit. They
drive the motor IC (BA6665FM, item 7300).
•
•
PAL/NTSC video encoder with simultaneously Y/C, CVBS,
and RGB/YUV outputs.
The video encoder supports Closed Caption and allows
MacroVision 7.0/6.1.
•
•
Full screen On Screen Display (OSD) generator.
Three on-chip PLLs to generate all necessary clocks (as
reference the 27 MHz video clock is used).
The SAA7812 has two independent microcontroller interfaces.
The first is a serial I2C-bus and the second is a standard 8-bit
Circuit Descriptions and List of Abbreviations
EN 80
9.
Input
Block diagram
Input data comes from the I2S-bus. The front-end interface of
this device, accepts DVD, CD and CD-DA information.
From Host processor
(STi 55XX)
To Host processor
(STi 55XX)
PCM IEC 958
3
1
4
Signal Processing
Register
Host
interface
Host interface
PCM_CLK
DSD_CLK
For video, the input data stream is decoded to the appropriate
MPEG, Sub Picture, and OSD data streams, after which they
are fed to the PAL/NTSC encoder. This cell will convert the
digital MPEG/Sub Picture/OSD stream into a standard base
band signal and into RGB components. It handles interlaced
and non-interlaced data, can perform CC/TXT encoding, and
allows MacroVision copy protection.
8 bits
AD
HF
AGC
2
IEC 958
gen.
IEC 958
Memory
manager
PSP-key
decoder
Key
Control
DSD -->PCM
(stereo)
2
S
PI-bus
I
Decryption
/
Sector
Processor
2
I
S
PCM
Demux
DSD
mix
PI-Bus
Control
For audio, the processing cell is a fully compatible DTS, Dolby
Digital (AC-3), MPEG1, MPEG2, PCM decoder, capable of
decoding 5.1 and 2 channel streams.
SACD
Audio
interface
2 -5 -6 ch
LossLess
decoder
6 channel
fade
DSD/PCM
MUTE
SDRAM
interface
Output
to 16 Mbit/64 Mbit
SDRAM
AUD_CLK
SYS_CLK
27-35 MHz
256/384/512/718 FS
*
CL 26532053_021.eps
260402
For video, six analogue output pins are available on which
CVBS, S-VHS (Y/C), and RGB signals are present. They go,
via a buffer, to connector 1703. As an option, a digital YUV
output is available at connector 1704.
FS = 44.1 - 48 KHz
Figure 9-6 Block diagram Furore
We can divide the Furore-IC in four main parts (see block
diagram):
External Memory
The STi55xx family is capable of accessing external memory
via three buses:
1. Host interface. This is the link between the host bus and
the internal registers and memory bus. It also supplies the
general reset signal (HW and SW) and the interrupt
signals.
•
The enhanced memory interface (EMI). This interface is
configurable and can be used to access Flash, ROM, and
various flavours of DRAM.
2. Data processing. All modules and peripherals in this part
are connected to a so-called PI-bus. It is beyond the scope
of this manual to go more in detail on this subject.
3. Copy protection. On every SACD disc, a PSP-signal is
recorded. The player can only play a disc if a valid PSP-
signal is detected. This PSP-key is recorded, via a special
mechanism, in the EFM-signal on the disc. To detect this
key, the analogue HF-signal from the optical pick-up unit is
fed directly to the Furore-IC. Via an AGC, the signal is fed
to an ADC. The digitised HF signal is then fed to a block
where key is encrypted. Control of this process is done via
the host interface (sector processor).
4. DSD decoding and post processing. In this part, all
processing is done to generate a DSD and/or an I2S stream
(from the de-multiplexed stream coming from the data
processing block), in such a way that it can directly be
connected to a DA-converter. All processing is done on
384*FS.
•
The shared memory interface (SMI). The SMI is only
used to access SDRAM. The SMI is connected to a
64Mbits (4M x 16bit) 7.5ns SDRAM (item 7500). The
SDRAM has the following functions:
–
It is used by the MPEG video decoder as a frame
buffer,
–
It holds the software and the variables used by it.
•
The I2C bus. Via this bus, the NVRAM (or EEPROM) is
accessible. This memory is used to store user settings,
player settings, and region code. As the STi55xx I/O-lines
are potentially unable handle 5V inputs, a voltage level
shifter is foreseen for all I2C-busses. This circuit will isolate
the STi55xx I2C ports (3.3V) from the system I2C bus (5V).
See figure below.
5V
3V3
Interfaces
•
Basic Engine Interface:
–
3k3
3k3
(optional)
Data input interface. The Basic Engine Interface (I2S)
is connected to the output of the SAA7335 (HD61) high
speed CD decoder.
5V I2C levels
3.3V I2C levels
–
Analogue HF input. The analogue HF input, coming
from the optical pickup unit (OPU), is also fed to the
Furore-IC, to extract the copy-protection information
PSP (Pit Signal Processing = invisible data is stored on
to disc, which is required to decrypt the encrypted
content).
CL 16532163_050.eps
230102
Figure 9-5 I2C voltage level shifter
•
•
SDRAM Interface: The SDRAM interface forms a glue
less interface to one 64 Mbit SDRAM device. The interface
takes care for the power-up sequence, mode programming
and refreshing of the SDRAM devices. This is hard coded
in the interface and does not have to be controlled by the
host.
The SACD DSD processor
The Furore-IC is a one-chip design, containing all the hardware
that is required for SACD processing. It is intended to interface
with the STixx-family DVD video decoders.
The Furore-IC contains a memory interface to support an
external 16 or 64 Mbit SDRAM.
During SACD application, the STi55xx serves as a host,
whereby the Furore is controlled via the EMI interface. The
Furore processing part is not used during all other play modes.
In these modes, the PCM audio signals are fed through the
Furore to the appropriate DAC.
Audio data input/output Interface:
–
DSD/PCM combined data output. DSD_PCM: Output
intended for a combined 6-channel DSD (SACD) and
PCM (DVD-CDDA) DAC. Switching between the PCM
data coming from the STi55xx, and the internal
generated DSD signals, is done in the Furore IC.
Stereo DSD only output. DSD_stereo: 2-channel DSD
output with stereo down mix in the case of 5- and 6-
channel, and normal stereo in case of 2-channel DSD
mode.
–
Circuit Descriptions and List of Abbreviations
9.
–
–
Stereo PCM data output. Two possible stereo sources
can be selected as stereo PCM output:
1. Stereo PCM coming from the STi55xx via the PCM
input on Furore.
2. Stereo or down-mix-PCM derived via a decimation
filter from the SACD-DSD signal.
Digital audio output interface (IEC958). The IEC958
format is intended to connect the DVD736SA to a
digital receiver. No DSD signals are defined for
IEC958, therefore the 'DSD-->PCM converted' signal
is transmitted. Following two types of signals are
possible on the digital interface:
•
The STi55xx processes the data, and sends the 6 PCM
output channels to Furore 2. The LeRi channels are directly
passed to the AV board also.
•
•
•
•
The switch matrix of the Furore 2 sends the two incoming
stereo PCM channels (LeRi) to the AV board.
The switch matrix of the Furore 2 sends the six incoming
PCM channels to the high end DAC board.
The mute signal from the STti55xx is directly passed to the
AV board. This requires a patch on the mono board.
The IEC958 output of the STi55xx is fed directly to AV
board.
1. IEC958 data coming from the STi55xx.
2. IEC958 data (stereo or down-mix-PCM) derived
via a decimation filter from the SACD-DSD signal.
Clock + reset input. Two different processing clocks
and a reset pulse are needed:
1. Sys_clk: System clock for data processing part,
frequency can be 27 MHz or 768*FS.
2. 384*FS: Processing clock for LLD and post
processing.
The clock distribution is as follows:
•
•
•
The master clock 384FS is received from the high end DAC
board.
From this clock the 27 MHz clock for STi5580 and the
Furore 2 is derived (Video clock).
From the 27 MHz clock the audio clock (256FS) is derived.
The STi55xx and Furore 2 use this clock. For CD-DA FS
amounts to 44.1 kHz, for DVD 48 or 96 kHz.
In case of CD-DA, the high end DAC uses its internal clock
(384FS). In case of DVD, the switch matrix of Furore 2
sends the audio clock (256FS) to the high end DAC on AV
board.
–
•
3. RESETn is an asynchronous reset and should be
low for at least 1 period of DSD_CLK.
•
The AV board receives the 256FS clock.
Memory
Selection of the audio clock is done in the clock factory. For a
description of the clock factory, see paragraph 'Clock Factory'.
•
SDRAM. The size of the SDRAM is 64 Mbit (items 7500
and 7502). It has the following functions:
–
It is used by the MPEG video decoder as a frame
buffer,
SACD Data Path
–
It holds the software and the variables used by it.
The data path for DSD/DST is as follows:
•
•
•
•
Flash-ROM. Two 2MB Flash-ROMs (items 7402 and
7403) hold the DVD firmware, and are controlled by pin 16
(FLASH_OEN) of the STi55xx. It must be able to perform a
download (by disk or OS-link) in a Flash-only system.
EEPROM. User settings, player settings, and region code
are stored in a 32 Kb I2C EEPROM.
I2S data from the basic engine enters the Furore 2.
The Furore 2 processes the data. This results in 6 DSD/
DST channels.
•
•
•
•
The switch matrix of the Furore 2 sends the 6 DSD/DST
channels to the high end DAC on AV board.
The 6 DSD/DST channels are down mixed to a stereo PCM
signal.
The switch matrix of the Furore 2 sends the stereo PCM
signal to the AV board.
Audio Output
The audio interfaces available in SD4.0SA_CH are I2S and S/
PDIF for digital audio output, and I2S karaoke microphone
input.
The mute signal from the STi55xx is directly passed to the
AV board. This requires a patch on the mono board.
The clock distribution is as follows:
In SACD player, two types of DACs (that are PCM DAC and
high end DSD DAC), are used on AV board.
The audio data path to both DACs is routed via the Furore 2.
•
•
•
•
The master clock 384FS is received from the high end DAC
on AV board.
From this clock the 27 MHz clock for Sti55xx and Furore 2
is derived (video clock).
From the 27 MHz clock the audio clock (256FS) is derived.
The STti5580 and Furore 2 use this clock.
The high end DAC on AV board uses its own XTAL clock
(384FS). The 256FS clock to the DAC board is switched
off, to prevent for interference.
I2S audio
The STi55xx is capable of 6-channel I2S output. These
channels can be configured to output 5.1 Dolby Digital, DTS,
etc.
•
•
•
PCM_OUT0: Left and Right.
PCM_OUT1: Centre and LFE (subwoofer).
PCM_OUT2: Left and Right surround.
•
The AV board receives the 256FS clock.
Selection of the audio clock is done in the clock factory. For a
description of the clock factory, see paragraph 'Clock Factory'.
Two additional channels (available in STi5580 and STi5588)
are capable of providing down-mixed stereo.
Video Output
S/PDIF
The S/PDIF signal level (pin 57, SPDIF_OUT) is 5V TTL at
module interface. To meet the complete S/PDIF specifications,
an external de-coupling circuit (item 7720, diagram M7) is
implemented.
Digital video (optional)
Digital YUV output is routed directly from STi55xx ports to a 24-
pin connector (item 1704). From the same connector, the
HSYNC, VSYNC and 27MHZ_CLK signals are available. The
digital YUV connector is the interface to external video
processing devices; such as high quality progressive scan
codex and high quality video DAC.
I2S karaoke (optional)
The STi5580 and STi5588 have built-in karaoke processing.
The internal karaoke block accepts I2S signal, acting as the
master by generating the required KOKPCMCLK frequency.
This frequency is always 1/4 the music sampling frequency.
An external analogue-to-digital converter (ADC), acting as
slave, is required to convert the microphone signals to I2S
signals.
Analogue video
The STi55xx is capable of 6-channel analogue video. Three
channels (pins 25, 26 and 27) are RGB or YUV format, while
the other three channels (pins 32, 33 and 34) are Y, C, and
CVBS.
A video output buffer (see diagram M7, e.g. item 7701 for R) is
implemented: an 8MHz/16MHz selectable filter stage and a
75Ω drive stage.
CD-DA/DVD Data Path
The data path for CD-DA and DVD is as follows:
•
I2S data from the M2 basic engine enters the STi55xx.
Circuit Descriptions and List of Abbreviations
EN 82
9.
Clock Factory
Service
One clock factory is implemented to support all clocks required
by the Furore 2. The various master clock, which depends on
whether SACD is present, is used for SD4.00_SA_CH. The
clock factory of SD4.00_SA_CH is showed in Figure 8-2.
5V
1k
S1
27MHz P-SCAN
100R
Out
1n5
FURORE 2
4k
16.9344 MHz
FURORE 2 (Optional)
4901
TXD_SER
STi55XX
IC S612G
SACD Clock
Source (PLL)
MK2703STR
PLL Audio Clock
Synthesizer
256 FS
*
DAC Clock
16.9344 MHz
16.9344 MHz
Clock
Buffer
16.9344 MHz
27MHz
DAC FURORE 2
Audio Clock
4k
256 FS
*
PCM_CLK
STi55XX
27MHz
Oscillator
(Option)
3V3
CL 26532053_023.eps
160502
10k
Figure 9-7 Block diagram clock factory
RXD_SER
10k
6k8
In
For the SACD player, the clock system is a DAC master clock
system. For non-SACD player, the clock system is a mono
board master clock system.
10k
The Furore 2 supports clock 256*FS/384*FS/512*FS. The
most convenient value in the market is 16.9344 MHz (384*FS,
FS=44.1kHz). Therefore, the master clock on the
SD4.00_SA_CH mono board is the 384*FS coming from the A/
V board. The 384*FS (16.9344 MHz) from the DAC clock, must
always be present. It is buffered before it is sent to the Furore
2 and the rest of the clock factory. The IC S612G delivers a 27
MHz system clock.
The Furore 2 and Sti5580/Sti5588 (Video) use this clock. It is
used to derive the PCM audio clocks 256*FS by the
MK2703STR. This IC is also used to buffer the incoming 27
MHz clock.
CL 16532163_049.eps
230102
Figure 9-8 Service Port Buffer
The service port (see diagram M5) is simplified to reduce cost.
The unused RTS and CTS lines are no longer connected. A
transistor buffer (item 7502) is used instead of the Schmitt
Trigger buffer (item 7501).
The overall loading and driving capability of the RS-232
emulator port is not greatly changed. However, as a
precaution, the Schmitt Trigger circuit remains in the layout as
an optional implementation.
The communication between the Sti55xx and the Furore 2 is
asynchronous.
To support non-SACD playback, an on-board 27MHz oscillator
delivers the master clock for SD4.00_SA_CH mono board.
This SD4.0SA_CH has the same ComPair connector as in
previous DVD generations. Flashing of the application-SW is
not possible with the ComPair cable, except with a CD-R disc.
For sets with Mask-ROM software, replace it with a
programmed Flash (available via your Philips Service
organisation).
Miscellaneous
Most general IO ports are connected directly to the module
interface. Compared with the SD3.0 module, some on-board
circuits are removed, as it made more sense (and more cost
effective) to implement these circuits externally.
Power Supply (diagram M7)
SCART Status Signal
Front-end
motor driver
12V
5V
The SCART0 and SCART1 signals are directly available at the
module interface, where the 0_6_12V signal is generated. See
table below:
Front-end
5V
Table 9-1 0_6_12V SCART status truth table
0_6_12V (at
3.3V
regulator
Front-end
3.3V
PIO3_6
PIO3_7
SCART
Function
TV display
TV display
(SCART0) (SCART1) connector)
1
0
1
1
0
0
0V
Furore 2
3.3V
3.3V
regulator
0V
16:9 aspect ratio 1
+6V
+12V
4:3 aspect ratio
0
Back-end
2.5V / 1.8V
3.3V
Mute
The audio MUTE signal (active 'high') is directly available at the
module interface.
2.5V /1.8V
regulator
Back-end
2.5V / 1.8V
1.8V
regulator
Furore 2
1.8V
CL 26532053_020.eps
260402
Figure 9-9 Mono Board Power Supply Block Diagram
The main power supplies to the module are 3.3V, 5V, and 12V
(input via connector 1703).
Circuit Descriptions and List of Abbreviations
9.
The SACD DSD/DST decoder Furore 2 uses 1.8V for its core
9.4.2 Control
and analogue portion, and 3.3V for its interface. The on-board
1.8V linear regulator LF18ABDT and 3.3V linear LD1117DT33
are used to generate 1.8V and 3.3V power supply respectively.
The back-end section mainly uses the 1.8V or 2.5V and 3.3V,
which depend on which back-end processor is used. The on-
board linear regulators LF25ABDT or LF18ABDT are used to
generate the 2.5V (or 1.8V) required by the STi55xx.
The front-end section mainly uses the 5V and 12V. An on-
board linear regulator LD1117DT33 can be used to generate
the 3.3V required by the front-end. The 12V is used by the
motor and servo drivers.
The control of the A/V board is done by I2C-decoder IC7107
(see table below):
Table 9-2 Control lines overview IC7107
Description
Pin Hi
Lo
CLK_SEL
12 External clock
(DSD stream)
Internal clock
(PCM stream)
UPSAMPLING 11 No upsampling
DAC_RESET 10 Normal
Upsampling
Reset
Reset Circuit
CENTER_ON
SPDIF-MUTE
192k/96k
9
5
4
Off
On
Mute
No mute
96k PCM
STi55xx
192k PCM
Power On
Low Voltage
Detection
4.5V
Reset
Circuit
Delay
RESETn
9.4.3 Video
1
Furore 2
The analogue video signals from the Mono Board are buffered
before they are fed to the A/V board. The video outputs from
the A/V Board are RGB/YUV, YC, and CVBS. These signals
are also fed to the double SCART board.
CLK_STBCTRL
RSTN
Clock Factory
Power On
Reset
Circuit
9.4.4 Audio
Low Voltage
Detection
4.5V
Delay
2
The digital audio signals for Surround, Centre and LFE
(subwoofer) are fed to a 6-channel DAC CS4362 (item 7300,
48-pin LQFP) for the audio output. This DAC accepts both DSD
and PCM data streams.
RES_P
Basic Engine
CL 26532053_018.eps
260402
Figure 9-10 Block diagram of reset circuit
The digital audio signals for Front and Stereo are fed to a high
performance current output DAC AD1955 (item 7301) via a
multiplexer (item 7200) which selects either the direct PCM or
an upsampled data stream (determined by the UPSAMPLING
control line.
This reset circuit takes care that booting the different devices
on the mono board takes place in the correct order. The correct
reset order is:
The Upsampling is only applicable for CD playback, and the
AD1895 sample rate converter (item 7201) converts the 44.1
kHz/16 bit audio to various formats such as 96 kHz/24 bit or
192 kHz/24 bit.
The bit and word clock, required by the upsampling DAC
AD1955 (item 7301), are derived from the 24.576 MHz master
clock (item7103) via counter (item 7204/7205).
1. The Power On Reset circuit (delay t1) creates a reset
signal 'RESETn' to reset the STi55xx and Furore .
2. In the meantime, the Power On Reset circuit (delay t1)
creates a reset signal 'CLK_STBCTRL', which is inverted
to 'RESETn', to enable the Clock Factory.
3. Then, the Power On Reset circuit (delay t2) generates a
reset signal 'RES_P' to reset the Basic Engine.
4. The STI55xx can now reset the Basic Engine via 'RSTN'.
The S/PDIF, only supports digital output upsampling of 96 kHz/
24 bit and is encoded by the digital audio transmitter AK4103
(item7203).
9.4 Audio/Video (A/V) Board
This board is the interface panel between the DVD-player and
its peripherals.
There is a control line from IC7107, called CENTRE_ON, which
is used to switch between the centre channel and front
channels for both SACD- and DVD modes.
9.4.1 Block diagram
See Block diagram A/V Board in chapter 6.
Circuit Descriptions and List of Abbreviations
EN 84
9.
9.5 Progressive Scan Board
The DVD963SA series offer progressive scan YUV outputs,
and the option to select the interlace YUV output
by a sliding switch on the board (selectable at the rear of the
player).
9.5.1 Block diagram
PROGRESSIVE SCAN BOARD
PROGRESSIVE YUV
7101
7301
7302
7303
SDRAM
Y
7100
7100
Port 1
8/16/24-bit
RGB/YCrCb
16/20/24-bit
RGB/YCrCb
Digital Outputs
Standard Defenition
Control Block
DAC
Pb/Cb
Pr/Cr
1000
Input
DIGITAL
YUV
DATA
Noise Reducer,
Deinterlacer, Frame
Rate Converter and
SDRAM interface
Output
Input Processor
with Auto Sync
and auto Adjust
Vertical and
Horizontal
Scalers
Color Control
Brightness
Gamma
Programmable Filters
SD Test Pattern
SD
Demux
Processor with
Sync Generation
and DACs
Port 2
8-bit
656 Input
RGB/YCrCb
Analog Outputs
O
V
E
R
S
A
M
P
L
H_SYNC
V_SYNC
Programmable
RGB Matrix
Clock
Generation
PLLs
Vertical and
Horizontal
Enhancers
HD
Demux
27M_CLOCK
I
High Defenition
Control Block
N
G
1202
5V
3V3
HD Test Pattern
Control
Interface
Timing
Gen.
Color Control
Adaptive Filter CTRL
Sharpness Filter
Control
Interface
2
I
C
PLL
CLK
DIGITAL VIDEO
FORMAT CONVERTER
PROGRESSIVE ENCODER
7301
3V3
+5VA
1V8
5V
1V8
+3V3A
+3V3D
+5VD
3V3
7300
3V3
2V5
CL 26532105_028.eps
300802
2V5
Figure 9-11 Block diagram Progressive Scan Board
9.5.2 Progressive YUV
Note: The loop-through only functions when the DVD-player is
in standby (NOT in low power standby)
This creates a picture signal with double the scan lines of a
conventional interlaced picture, to create a noticeably sharper
and smoother image. It offers higher picture resolution and
eliminates virtually all motion artefacts. Even on large screens,
the progressive scan lines are barely noticeable and it reduces
picture flickering significant.
TV
CVBS Audio Audio CVBS
R
or C
G
B
or C
or Y
TV
TV
up
or Y
up
Blue (from RGB) is up
C (from Y/C) is down
Two new IC's are used: the Faroudja FLI2310 Digital Video
Format Converter, and the Analog Devices ADV7300
Progressive Scan Video Encoder.
SCART2
DVD Player
This board also offers the Digital Crystal Clear feature, which
allow you to fine-tune the following parameters:
•
•
•
•
Gamma correction.
Chroma and Luma delay.
Sharpness.
DCDi: to produce a smooth and natural looking image
without visible artifacts (like jagged edges).
True life: brings out details in the picture, producing a more
life-like image.
SCART1
CVBS Audio Audio CVBS
R
or C
G
B
or C
or Y
down
down VCR
or Y
up
Blue is up
C is down
•
VCR/STB/etc
Control lines
are not shown
9.6 Double SCART
CL 26532105_029.eps
290802
This board consists of two SCART connectors and a SCART-
switch (item 7501, STV6410), which is controlled by I2C.
In a P50 player with double SCART connectors, video and
audio loop-through must be available. This loop-through is
controlled by the P50 commands, which are send via pin 10 of
the SCART connector. When the DVD player is in standby, the
loop-through is active. During standby, the display (slave)
processor is active (takes over the I2C-bus), and will manage
the P50 commands.
Figure 9-12 Loop-through set-up
The B component (from RGB) and the C component (from Y/
C) share the same pin on the SCART connector (pin 7).
Because the B-signal is an "up-stream" signal (towards the TV)
and the C-signal is a "down-stream" signal (towards the VCR),
this pin 7 must be a bi-directional pin. Because the STV6410
Circuit Descriptions and List of Abbreviations
9.
does not support this, an external circuit (two bi-directional
switches, named switch "1" and switch "2") is added. The Y-
and CVBS-components also share the same pins.
Also, when going to Standby, the slave processor will reset the
host processor. When the slave processor receives the correct
IR (or key) code to leave the Standby mode, it resets the host
processor.
STV6410
Note: The slave uP will not reset successfully, if the 8MHz
clock oscillator has not stabilised (check on pin 8 of IC7101).
Other slave processor functions are:
SCART to TV
SCART2
AUX-SCART
SCART1
•
•
•
Generation of a scanning grid for the keys,
Generation of the display grid and segment scanning,
Generation of square signal to generate the filament
voltage for FTD display,
Y/CVBS-out
Y/CVBS-in
Y/CVBS-out
Y/CVBS-in
L_out
L_in
L_out
L_in
•
Inputs for RC5/6 and P50 (P50 controller is build in).
R_out
R_in
R_out
R_in
Standby LED
R/C
R/C
G
Transistor 7104 drives the Standby LED. When the STBLED
signal from the slave processor is ‘high’ (pin 14), the LED is
‘off’.
G
2
B/C
SB
1
B/C
SB
Key Matrix
When a key on the local keyboard is pressed, the signal at the
scanning pins of the microprocessor (pins 34, 35, 36 and 37)
go from +5 V to 0 V.
Aux Fast
Blanking
Fast
Blanking
4/3;16/9
select
Blanking
Switch
0 or 5V
1300
A/V Board
IR Receiver
2
C
C
Y
CVBS
R
G
B
L
R
I
CL 26532105_030.eps
300802
The IR controller in the slave processor handles both RC5 and
RC6 signals (input on pin 22). The logic is +5 V for ‘high’ and 0
V for ‘low’.
Figure 9-13 SCART switching circuitry
Status LEDs
•
•
Switch "1" is controlled by the FB (Fast Blanking) pin (pin
16) of SCART2 (TV SCART):
The four status LEDs (SOUND, AUDIO DIRECT, UP-
SAMPLING, and P-SCAN) are controlled by the slave
processor.
–
–
If the FB line is low, C is input on the B/C of SCART2.
If the FB line is high, B is output on the B/C of SCART2.
Switch "2" is controlled by the FB (Fast Blanking) pin (pin
16) of SCART1 (AUX SCART):
P50 Interface
P50 (or Easylink) is a bi-directional serial interface for
communication between video equipment. For European sets,
this communication goes via pin 10 of the SCART connector,
while for other regions (when present), this is a cinch
connector. The slave processor controls the P50 bus (via pins
11 and 20).
–
–
If the FB line is low, C is output on the B/C of SCART1.
If the FB line is high, B is intput on the B/C of SCART1.
We can distinguish four situations:
1. DVD player is ON, DVD is active (DVD mode):
NO LOOP-TROUGH.
2. DVD player is ON, DVD is not active (TV mode):
LOOP-TROUGH.
9.7.2 Display
3. DVD player is ON, external source becomes active:
LOOP-TROUGH.
4. DVD player is in STBY:
Because these DVD players have an AC display (FTD) and a
DC supply, an AC voltage is created by the microprocessor
The slave processor has an internal square signal generator
(42 kHz, duty cycle 45/55), to generate the AC filament voltage.
This square voltage is amplified (by TS7106 and 7109) and
decoupled (C2138 and C2143) before it is applied to the
display. The necessary voltage of -32 V comes directly from the
PSU.
LOOP-TROUGH.
9.7 Control and Display Panel
9.7.1 Control
Slave processor
The key component on this board is the (slave) microprocessor
(item 7401). It runs on an 8 MHz system clock generated with
a ceramic resonator (item 1119) and has a reset circuit (item
7105) that is triggered by the +5Vstb voltage.
The start-up sequence is as follows:
1. The required IC voltage is the +5Vstb, which is present
during Standby Mode.
2. When the RESET circuit (item 7105) is triggered by the
+5Vstb, the slave uP initialises.
3. This will set the STDBY_CONTROL signal to LOW, which
will switch on the 12V and subsequently the +3V3.
4. Once these voltages are provided, the host uP (on the
mono board) will reset (via reset circuit around item 7412
on the mono board, diagram M4).
5. Now, the host uP will initialise, and indicate the slave uP to
activate the Standby Mode (STBY_CONTROL) signal.
6. The player wakes up from the Standby Mode when any
button is pressed on the front panel, or when the 'Power'
button is pressed on the Remote Control.
Circuit Descriptions and List of Abbreviations
EN 86
9.
SRAM
STBY
SVCD
SW
THD
TTL
uP
VAL
VCD
Y/C
Static RAM
Standby
9.8 Abbreviation list
Super Video CD
Software
Total Harmonic Distortion
Transistor Transistor Logic (5V logic)
Microprocessor
Video Audio Loader
Video CD
Luminance (Y) and Chrominance (C)
signal
ADC
AGC
ASD
AM
Analogue to Digital Converter
Automatic Gain Control
Architecture and Standard Design
Amplitude Modulation
Basic Engine
Computer aided rePair
CD Digital Audio
Chip Select
Composite Video Blanking and
Synchronisation
BE
ComPair
CD-DA
CS
CVBS
YUV
Component video
DAC
Digital to Analogue Converter
Digital Audio Input Output
De-multiplexer
Digital Encoder
Direction For Use: description for the
end user
DAIO
DEMUX
DENC
DFU
DNR
DRAM
DSD
DSP
DST
Dynamic Noise Reduction
Dynamic Random Access Memory
Direct Stream Digital
Digital Signal Processing
Direct Stream Transfer (= loss less
compressed DSD signal)
Digital Theatre Sound
Digital Versatile Disc
DTS
DVD
EEPROM
Electrically Erasable and
Programmable Read Only Memory
Eight to Fourteen bit Modulation
External Memory Interface (STi55xx)
Flat Foil Cable
Flash memory
High Pass Filter
Hardware
EFM
EMI
FFC
FLASH
HPF
HW
I2C
Integrated IC bus (signals at 5V level)
Integrated IC Sound bus (signals at
3.3V level)
I2S
IC
Integrated Circuit
IF
IRQ
Intermediate Frequency
Interrupt Request
KOK
LFE
LLD
Karaoke
Low Frequency Effect (= subwoofer)
Loss Less Decoder
LPCM
LRCLK
LVTTL
Linear Pulse Code Modulation
Left/Right clock
Low Voltage Transistor Transistor
Logic (3.3V logic)
M2
Mercury 2 Basic Engine
Mini All Compact Disc Engine
Motion Pictures Experts Group
Not Connected
MACE
MPEG
NC
NVM
Non Volatile Memory (= IC containing
TV related data e.g. alignments)
Open Circuit
OC
OPU
Optical Pick-up Unit
PCB
PCM
PCM_CLK
PCM_OUTx
PSP
Printed Circuit Board (see PWB)
Pulse Code Modulation
Audio system clock for DAC
Audio serial output data
Pit Signal Processing
PSU
Power Supply Unit
PWB
RAM
RGB
ROM
S2B
Printed Wiring Board (see PCB)
Random Access Memory
Red, Green and Blue colour space
Read Only Memory
Serial to Basic Engine (=
communication bus between host-
and servo processor)
SCL
Serial Clock I2C
SCLK
SDA
Audio serial bit clock
Serial Data I2C
SDRAM
SMI
S/PDIF
Synchronous DRAM
Shared Memory Interface
Sony Philips Digital InterFace
Circuit Descriptions and List of Abbreviations
9.
9.9 IC Data
In this paragraph, the internal block diagrams and pinning are
given of ICs that are drawn as 'black box' in the electrical
diagrams (with the exception of 'memory' and 'logic' ICs).
9.9.1 Diagram Power Supply: TY72011P2 (item 7130
Vcc pin13
Startup
UVLOh = 15V
UVLOl = 7.2V
Over Voltage
HV
1
14
13
Protection (Vcc > 41V?)
Internal Vcc
Internal regulator
2
3
Last pulse of
NC
Vcc
demag after 4µs
Demag
DEMAG ?
Rf
12
11
Internal Clamp
DRV
Verr max = 3V
Verr min = 10mV
Clock
OVP
Ri
R
Q
FB
Flip-Flop
Isense
4
1/3
D
2.5V
Driver
Current comparator
Ct
Gnd
NC
5
6
7
10
9
Over Current
Protection (OCP)
V(-) < 1.5V
250mV - 1V max setpoint
250mV clamp
200ns L.E.B
Vcc pin8
OVP
1V
4x10V zener
VCO Feedback
Toff = f (Verr)
Max Toff = f (Ct)
Verr
OVP
More than 128ms?
--> protection circuitry
8
500
NC
NC
60mV
20k
.
Figure 9-14 Block Diagram
1
2
3
4
5
6
7
nc
14
13
12
11
10
9
HV
nc
Vcc
Drive
Isense
GND
nc
Demag
FB
Ct
OVP
nc
nc
8
PIN CONNECTIONS
Figure 9-15 Pinning
Circuit Descriptions and List of Abbreviations
EN 90
9.
9.9.4 Diagram P1: FLI2301 (item 7100)
BLOCK DIAGRAM
ñ
Simplified Internal Block Diagram
Port 2
8-bit
16/20/24-bit
RBG/YCrCb
Digital Outputs
Noise Reducer,
Deinterlacer, Frame
Rate Converter and
SDRAM interface
Output
656 Input
Vertical and
Horizontal
Scalers
Processor with
Sync Generation
and DACs
RBG/YCrCb
Analog Outputs
Port 1
8/16/24-bit
RGB/YCrCb
Input
2Mx32
SDRAM
(external)
HSYNC1_PORT1
1
OE
VSYNC1_PORT1
FIELD ID1_PORT1
IN_CLK1_PORT1
G/Y/Y_OUT_7
G/Y/Y_OUT_6
G/Y/Y_OUT_5
G/Y/Y_OUT_4
G/Y/Y_OUT_3
G/Y/Y_OUT_2
G/Y/Y_OUT_1
G/Y/Y_OUT_0
VSS
1 5 5
1 5 0
1 4 5
1 4 0
1 3 5
1 3 0
1 2 5
1 2 0
1 1 5
1 1 0
1 0 5
HSYNC2_PORT1
5
Pin Diagram
VSYNC2_PORT1
FIELD ID2_PORT1
VDD1
VSS
IN_CLK2_PORT1
1 0
B/Cb/D1_0
B/Cb/D1_1
B/Cb/D1_2
B/Cb/D1_3
VDD8
R/V/Pr_OUT_7
R/V/Pr_OUT_6
R/V/Pr_OUT_5
R/V/Pr_OUT_4
R/V/Pr_OUT_3
R/V/Pr_OUT_2
VSScore
B/Cb/D1_4
1 5
2 0
2 5
3 0
3 5
4 0
4 5
5 0
VDDcore1
VSScore
B/Cb/D1_5
B/Cb/D1_6
VDDcore7
R/V/Pr_OUT_1
B/Cb/D1_7
R/Cr/Cb Cr_0
R/Cr/Cb Cr_1
R/Cr/Cb Cr_2
R/Cr/Cb Cr_3
R/Cr/Cb Cr_4
R/Cr/Cb Cr_5
R/Cr/Cb Cr_6
R/V/Pr_OUT_0
B/U/Pb_OUT_7
B/U/Pb_OUT_6
B/U/Pb_OUT_5
B/U/Pb_OUT_4
B/U/Pb_OUT_3
B/U/Pb_OUT_2
VSS
R/Cr/Cb Cr_7
G/Y/Y_0
VDD7
VDD2
VSS
B/U/Pb_OUT_1
B/U/Pb_OUT_0
CLKOUT
G/Y/Y_1
G/Y/Y_2
G/Y/Y_3
G/Y/Y_4
VDDcore2
VSScore
VSScore
VDDcore6
CTLOUT4
CTLOUT3
CTLOUT2
G/Y/Y_5
G/Y/Y_6
G/Y/Y_7
IN_SEL
CTLOUT1
CTLOUT0
TEST OUT1
TEST OUT0
TEST3
TEST
DEV_ADDR1
SDRAM CLKIN
DEV_ADDR0
SCLK
VSS
VDD6
SDATA
RESET_N
SDRAM CLKOUT
SDRAM DQM
SDRAM CSN
VDD3
VSS
SDRAM BA0
SDRAM BA1
SDRAM DATA(0)
SDRAM DATA(1)
SDRAM DATA(2)
SDRAM CASN
SDRAM RASN
CL 26532105_056.eps
300802
Figure 9-18 FLI2301 (item 7100)
Spare Parts List
10.
10. Spare Parts List
0365 3103 308 92610 CABLE AUDIO 2X2RCA
MALE 1.5MTR
0366 4822 321 61579 VIDEO-CABLE
0375 3139 246 11951 IFU DVD963SA/69X
2310 2238 586 59812 0603 50V 100NP80M
2311 4822 124 41584 100µF 20% 10V
2312 4822 124 41584 100µF 20% 10V
2313 2238 586 59812 0603 50V 100NP80M
Mechanical /001
Various
1010 3122 427 23261 PSU SUPER AUDIO CD WR 2314 4822 124 40433 47µF 20% 25V
0002 3139 247 56601 FRONT ASSY DVD963SA/
00X
0078 3139 243 10161 FILTER FTD SACD900
0150 3139 247 56581 BOTTOM FRAME ASSY
DVD963SA/00X
0155 2422 030 00395 SOC POW H 3P M AC IEC B
0250 3139 247 56571 PLATE BACK DVD963SA/
00X PPT
0300 3139 247 51691 COVER TOP DVD956K PNT
PRT
0350 3139 238 02121 PROD. ASSY RC19237006/
01H PKD
0360 2422 070 98224 MAINSCORD IEC 10A 1M5
DET BK B
0365 3103 308 92610 CABLE AUDIO 2X2RCA
MALE 1.5MTR
0366 4822 321 61579 VIDEO-CABLE
0372 2422 076 00468 CBLE SCART 1M1 SCART
21P BK B
0375 3139 246 11991 IFU DVD963SA/00X
1010 3122 427 23261 PSU SUPER AUDIO CD WR
HE
1103 3139 110 36071 FFC FOIL 30P/100/30P BD
1MMP
1104 3139 110 36071 FFC FOIL 30P/100/30P BD
1MMP
1108 3139 241 00191 FFC FOIL 24P/180/24P
BD1MMP FD
HE
2315 2238 586 59812 0603 50V 100NP80M
2316 2238 586 59812 0603 50V 100NP80M
2317 4822 124 40248 10µF 20% 63V
2318 2238 586 59812 0603 50V 100NP80M
2319 4822 124 21913 1µF 20% 63V
1103 3139 110 36071 FFC FOIL 30P/100/30P BD
1MMP
1104 3139 110 36071 FFC FOIL 30P/100/30P BD
1MMP
1108 3139 241 00191 FFC FOIL 24P/180/24P
BD1MMP FD
2321 2020 552 94427 0603 50V 100P 5%
2323 2020 552 94427 0603 50V 100P 5%
2400 2238 586 59812 0603 50V 100NP80M
2401 2238 586 59812 0603 50V 100NP80M
2402 2238 586 59812 0603 50V 100NP80M
2403 2238 586 59812 0603 50V 100NP80M
2404 2238 586 59812 0603 50V 100NP80M
2405 2238 586 59812 0603 50V 100NP80M
2406 2238 586 59812 0603 50V 100NP80M
2407 2238 586 59812 0603 50V 100NP80M
2408 2238 586 59812 0603 50V 100NP80M
2409 2238 586 59812 0603 50V 100NP80M
2410 2238 586 59812 0603 50V 100NP80M
2411 2238 586 59812 0603 50V 100NP80M
2412 4822 124 40207 100µF 20% 25V
2413 4822 124 40207 100µF 20% 25V
2414 2020 552 94427 0603 50V 100P 5%
2415 2020 552 94427 0603 50V 100P 5%
2416 2020 552 94427 0603 50V 100P 5%
2417 3198 016 36810 0603 25V 680P COL R
2418 4822 126 13881 470pF 5% 50V
2419 3198 016 36810 0603 25V 680P COL R
2420 4822 126 13881 470pF 5% 50V
2421 2020 012 93792 EL FG 16V S 100µF PM20 A
2422 2020 552 94427 0603 50V 100P 5%
2423 2020 552 94427 0603 50V 100P 5%
2424 2020 552 94427 0603 50V 100P 5%
2425 3198 016 36810 0603 25V 680P COL R
2426 4822 126 13881 470pF 5% 50V
2427 3198 016 36810 0603 25V 680P COL R
2428 4822 126 13881 470pF 5% 50V
2429 2020 012 93792 EL FG 16V S 100µF PM20 A
2431 3198 016 31020 0603 25V 1nF
SD4.00SA Module
Various
0001 9305 023 61114 VAL6011/14
AV PWB
Various
1101 2422 543 01255 RES XTL SM 24MHz 576
30P AT-51R
1102 2422 543 01297 RES XTL SM 33M8688 16P
NX6035R
1400 2422 025 17433 CON BM V 30P F 1.00 FFC
0.3 B
1401 2422 026 05345 SOC CINCH H 4P F
YEWHYERD Y
1402 2422 026 05088 CON BM CINCH H 6P F B
1403 4822 265 11154 52030-2210 (22P)
1408 2422 026 05188 CON BM MDIN H 3P F
TCS7927 B
1110 3139 241 00201 FFC FOIL 22P/220/22P BD
1MMP
0374 3139 246 12131 IFU2 DVD963SA/00X
Mechanical /171
1410 4822 267 31626
1420 2422 025 10772 CON BM V 12P M 2.00 PH B
1421 2422 025 17433 CON BM V 30P F 1.00 FFC
0.3 B
Various
1422 2422 025 17467 CON BM V 8P M 2.50 MIS B
0002 3139 247 56601 FRONT ASSY DVD963SA/
00X
0078 3139 243 10161 FILTER FTD SACD900
0150 3139 247 56581 BOTTOM FRAME ASSY
DVD963SA/00X
0155 2422 030 00395 SOC POW H 3P M AC IEC B
0250 3139 247 56561 PLATE BACK DVD963SA/
17X PPT
0300 3139 247 51691 COVER TOP DVD956K PNT
PRT
0350 3139 238 02121 PROD. ASSY RC19237006/
01H PKD
0360 2422 070 98223 MAINSCORDUL 10A 1M5
DET BK B
0365 3103 308 92610 CABLE AUDIO 2X2RCA
MALE 1.5MTR
0366 4822 321 61579 VIDEO-CABLE
0375 3139 246 11961 IFU DVD963SA/17X
1010 3122 427 23471 PSU SUPER AUDIO CD
USA 35PS104
2432 3198 016 31020 0603 25V 1nF
2434 3198 016 31020 0603 25V 1nF
2436 3198 016 31020 0603 25V 1nF
2437 3198 016 31020 0603 25V 1nF
2439 3198 016 31020 0603 25V 1nF
2440 3198 016 31020 0603 25V 1nF
2441 3198 016 31020 0603 25V 1nF
2100 2238 586 59812 0603 50V 100NP80M
2101 4822 122 33761 22pF 5% 50V
2102 4822 126 11785 0603 50V 47P 5%
2103 4822 122 33752 15pF 5% 50V
2104 4822 122 33752 15pF 5% 50V
2105 4822 126 11663 12pF
2442 4822 124 80195 470µF 20% 10V
2443 4822 124 80195 470µF 20% 10V
2444 4822 124 80195 470µF 20% 10V
2445 4822 124 80195 470µF 20% 10V
2500 2238 586 59812 0603 50V 100NP80M
2501 2238 586 59812 0603 50V 100NP80M
2502 2238 586 59812 0603 50V 100NP80M
2503 2238 586 59812 0603 50V 100NP80M
2510 4822 126 14506 270pF 5% 50V 0603
2511 4822 126 13881 470pF 5% 50V
2512 2020 552 94427 0603 50V 100P 5%
2513 2020 552 94427 0603 50V 100P 5%
2514 4822 126 13881 470pF 5% 50V
2515 4822 126 14506 270pF 5% 50V 0603
2516 4822 126 14506 270pF 5% 50V 0603
2517 2020 552 94427 0603 50V 100P 5%
2518 4822 126 13881 470pF 5% 50V
2519 4822 126 14506 270pF 5% 50V 0603
2520 2020 552 94427 0603 50V 100P 5%
2521 4822 126 13881 470pF 5% 50V
2522 4822 126 14506 270pF 5% 50V 0603
2523 4822 126 13881 470pF 5% 50V
2524 2020 552 94427 0603 50V 100P 5%
2525 2020 552 94427 0603 50V 100P 5%
2526 4822 126 13881 470pF 5% 50V
2527 4822 126 14506 270pF 5% 50V 0603
2528 4822 126 14506 270pF 5% 50V 0603
2529 4822 126 13881 470pF 5% 50V
2530 3198 016 31020 0603 25V 1nF
2106 4822 126 11663 12pF
2107 4822 122 33752 15pF 5% 50V
2108 2238 586 59812 0603 50V 100NP80M
2110 2238 586 59812 0603 50V 100NP80M
2111 2238 586 59812 0603 50V 100NP80M
2112 2238 586 59812 0603 50V 100NP80M
2113 2238 586 59812 0603 50V 100NP80M
2114 2020 552 93645 0603 50V 39P 5%
2115 2020 552 93645 0603 50V 39P 5%
2116 4822 122 33761 22pF 5% 50V
2117 2238 586 59812 0603 50V 100NP80M
2118 4822 126 11663 12pF
1103 3139 110 36071 FFC FOIL 30P/100/30P BD
1MMP
1104 3139 110 36071 FFC FOIL 30P/100/30P BD
1MMP
1108 3139 241 00191 FFC FOIL 24P/180/24P
BD1MMP FD
2119 4822 126 11663 12pF
2200 2238 586 59812 0603 50V 100NP80M
2201 2238 586 59812 0603 50V 100NP80M
2202 2238 586 59812 0603 50V 100NP80M
2203 2238 586 59812 0603 50V 100NP80M
2204 2238 586 59812 0603 50V 100NP80M
2205 4822 124 40248 10µF 20% 63V
2206 4822 124 40248 10µF 20% 63V
2207 2238 586 59812 0603 50V 100NP80M
2208 2238 586 59812 0603 50V 100NP80M
2209 2238 586 59812 0603 50V 100NP80M
2210 4822 124 40248 10µF 20% 63V
2211 2238 586 59812 0603 50V 100NP80M
2212 4822 124 40248 10µF 20% 63V
2213 4822 124 40248 10µF 20% 63V
2300 2238 586 59812 0603 50V 100NP80M
2301 4822 124 40248 10µF 20% 63V
2302 4822 124 21913 1µF 20% 63V
2303 2238 586 59812 0603 50V 100NP80M
2304 2238 586 59812 0603 50V 100NP80M
2305 4822 124 21913 1µF 20% 63V
2306 2238 586 59812 0603 50V 100NP80M
2307 4822 124 40433 47µF 20% 25V
2308 2238 586 59812 0603 50V 100NP80M
2309 4822 124 21913 1µF 20% 63V
Mechanical /691
Various
0002 3139 247 56601 FRONT ASSY DVD963SA/
00X
0078 3139 243 10161 FILTER FTD SACD900
0150 3139 247 56581 BOTTOM FRAME ASSY
DVD963SA/00X
0155 2422 030 00395 SOC POW H 3P M AC IEC B
0250 3139 247 56561 PLATE BACK DVD963SA/
17X PPT
0300 3139 247 51691 COVER TOP DVD956K PNT
PRT
2531 3198 016 31020 0603 25V 1nF
2532 4822 124 40207 100µF 20% 25V
2533 2020 012 93792 EL FG 16V S 100µF PM20 A
2534 4822 124 40207 100µF 20% 25V
2535 2020 552 94427 0603 50V 100P 5%
2536 4822 124 40207 100µF 20% 25V
2537 2020 552 94427 0603 50V 100P 5%
2538 4822 126 13881 470pF 5% 50V
2539 4822 126 14506 270pF 5% 50V 0603
2540 3198 016 31020 0603 25V 1nF
0350 3139 238 02121 PROD. ASSY RC19237006/
01H PKD
0360 2422 070 98224 MAINSCORD IEC 10A 1M5
DET BK B
Spare Parts List
10.
2541 3198 016 31020 0603 25V 1nF
2542 3198 016 31020 0603 25V 1nF
2543 3198 016 31020 0603 25V 1nF
2544 3198 016 31020 0603 25V 1nF
2545 3198 016 31020 0603 25V 1nF
2546 4822 124 80875 220µF 20% 25V
2547 4822 124 80875 220µF 20% 25V
2600 4822 126 14494 22nF 10% 25V 0603
2601 4822 126 13883 220pF 5% 50V
2602 4822 126 13883 220pF 5% 50V
2603 3198 017 44740 0603 10V 470nF COL
2604 4822 126 13883 220pF 5% 50V
2605 4822 126 13883 220pF 5% 50V
2606 4822 124 40433 47µF 20% 25V
2608 4822 124 40248 10µF 20% 63V
2609 4822 124 40207 100µF 20% 25V
2610 4822 124 40433 47µF 20% 25V
2612 4822 124 40248 10µF 20% 63V
2613 4822 124 80791 470µF 16V 20% 105C
DXH=8X11.5
3305 5322 117 13018 1k0 1% 0.063W 0603 RC22H 3529 4822 117 12706 10k 1% 0.063W CASE0603
3306 4822 051 30759 75Ω 5% 0.062W
3307 4822 051 30759 75Ω 5% 0.062W
3308 4822 051 30759 75Ω 5% 0.062W
3310 4822 051 30103 10k 5% 0.062W
3311 4822 051 30103 10k 5% 0.062W
3313 4822 051 30103 10k 5% 0.062W
3314 4822 051 30103 10k 5% 0.062W
3400 4822 051 30103 10k 5% 0.062W
3401 4822 051 30273 27k 5% 0.062W
3403 5322 117 13049 470Ω 1% 0.063W 0603
RC22H
3404 4822 051 30101 100Ω 5% 0.062W
3405 5322 117 13061 180Ω 1% 0.063W 0603
RC22H
3406 4822 051 30561 560Ω 5% 0.062W
3408 4822 051 30101 100Ω 5% 0.062W
3409 5322 117 13049 470Ω 1% 0.063W 0603
RC22H
RC22H
3530 5322 117 13022 22k 1% 0.063W 0603 RC22H
3531 5322 117 13048 3k3 1% 0.063W 0603 RC22H
3532 4822 117 12706 10k 1% 0.063W CASE0603
RC22H
3533 4822 117 12706 10k 1% 0.063W CASE0603
RC22H
3534 4822 117 12706 10k 1% 0.063W CASE0603
RC22H
3535 5322 117 13022 22k 1% 0.063W 0603 RC22H
3536 5322 117 13048 3k3 1% 0.063W 0603 RC22H
3537 4822 117 12706 10k 1% 0.063W CASE0603
RC22H
3538 4822 117 12706 10k 1% 0.063W CASE0603
RC22H
3539 4822 117 12706 10k 1% 0.063W CASE0603
RC22H
3540 4822 051 30221 220Ω 5% 0.062W
3541 4822 051 30102 1k 5% 0.062W
3543 5322 117 13022 22k 1% 0.063W 0603 RC22H
3410 5322 117 13061 180Ω 1% 0.063W 0603
2614 4822 124 40207 100µF 20% 25V
2616 4822 124 40207 100µF 20% 25V
2617 2238 586 59812 0603 50V 100NP80M
2618 4822 124 40248 10µF 20% 63V
2619 4822 124 81144 1000µF 16V
RC22H
3411 5322 117 13052 2k7 1% 0.063W 0603 RC22H 3544 5322 117 13048 3k3 1% 0.063W 0603 RC22H
3412 5322 117 13046 1k8 1% 0.063W 0603 RC22H 3545 4822 117 12706 10k 1% 0.063W CASE0603
3413 5322 117 13052 2k7 1% 0.063W 0603 RC22H
3414 5322 117 13046 1k8 1% 0.063W 0603 RC22H 3546 4822 117 12706 10k 1% 0.063W CASE0603
3415 5322 117 13052 2k7 1% 0.063W 0603 RC22H RC22H
3416 5322 117 13046 1k8 1% 0.063W 0603 RC22H 3547 4822 117 12706 10k 1% 0.063W CASE0603
RC22H
2620 4822 124 40248 10µF 20% 63V
2621 2238 586 59812 0603 50V 100NP80M
2622 4822 126 11785 0603 50V 47P 5%
2623 4822 126 11785 0603 50V 47P 5%
2624 5322 126 11583 10nF 10% 50V 0603
2625 4822 124 40207 100µF 20% 25V
2626 4822 124 40207 100µF 20% 25V
2627 4822 124 80875 220µF 20% 25V
2628 4822 124 40433 47µF 20% 25V
2633 4822 124 40207 100µF 20% 25V
2634 2238 586 59812 0603 50V 100NP80M
2635 4822 124 40207 100µF 20% 25V
2636 2238 586 59812 0603 50V 100NP80M
2637 4822 124 40207 100µF 20% 25V
2638 2238 586 59812 0603 50V 100NP80M
2639 2238 586 59812 0603 50V 100NP80M
2640 2238 586 59812 0603 50V 100NP80M
2646 4822 124 40433 47µF 20% 25V
3417 5322 117 13046 1k8 1% 0.063W 0603 RC22H
RC22H
3418 4822 051 30101 100Ω 5% 0.062W
3548 5322 117 13022 22k 1% 0.063W 0603 RC22H
3419 5322 117 13052 2k7 1% 0.063W 0603 RC22H 3549 5322 117 13048 3k3 1% 0.063W 0603 RC22H
3421 5322 117 13049 470Ω 1% 0.063W 0603
3550 4822 051 30221 220Ω 5% 0.062W
3551 4822 051 30102 1k 5% 0.062W
3552 4822 051 30103 10k 5% 0.062W
3553 4822 051 30103 10k 5% 0.062W
3555 4822 051 30471 470Ω 5% 0.062W
3556 4822 051 30102 1k 5% 0.062W
3558 4822 051 30471 470Ω 5% 0.062W
3560 4822 051 30102 1k 5% 0.062W
3561 4822 051 30103 10k 5% 0.062W
3562 4822 051 30103 10k 5% 0.062W
3563 4822 051 30221 220Ω 5% 0.062W
RC22H
3422 5322 117 13061 180Ω 1% 0.063W 0603
RC22H
3423 4822 051 30101 100Ω 5% 0.062W
3424 4822 051 30561 560Ω 5% 0.062W
3426 4822 051 30101 100Ω 5% 0.062W
3427 5322 117 13049 470Ω 1% 0.063W 0603
RC22H
3428 5322 117 13061 180Ω 1% 0.063W 0603
RC22H
3429 5322 117 13052 2k7 1% 0.063W 0603 RC22H 3564 4822 051 30102 1k 5% 0.062W
3430 5322 117 13046 1k8 1% 0.063W 0603 RC22H 3566 4822 051 30221 220Ω 5% 0.062W
3431 5322 117 13052 2k7 1% 0.063W 0603 RC22H 3567 4822 051 30102 1k 5% 0.062W
3432 5322 117 13046 1k8 1% 0.063W 0603 RC22H 3568 4822 051 30103 10k 5% 0.062W
3433 5322 117 13052 2k7 1% 0.063W 0603 RC22H 3570 4822 051 30103 10k 5% 0.062W
3434 5322 117 13046 1k8 1% 0.063W 0603 RC22H 3571 4822 051 30221 220Ω 5% 0.062W
3435 5322 117 13046 1k8 1% 0.063W 0603 RC22H 3572 4822 051 30102 1k 5% 0.062W
3100 4822 051 30101 100Ω 5% 0.062W
3101 4822 051 30101 100Ω 5% 0.062W
3102 4822 051 30101 100Ω 5% 0.062W
3103 4822 051 30101 100Ω 5% 0.062W
3104 4822 051 30101 100Ω 5% 0.062W
3105 4822 051 30101 100Ω 5% 0.062W
3106 4822 051 30101 100Ω 5% 0.062W
3107 4822 051 30101 100Ω 5% 0.062W
3108 4822 051 30101 100Ω 5% 0.062W
3109 4822 051 30472 4k7 5% 0.062W
3110 4822 051 30109 10Ω 5% 0.062W
3111 4822 051 30105 1M 5% 0.062W
3112 4822 051 30221 220Ω 5% 0.062W
3113 4822 051 30472 4k7 5% 0.062W
3114 4822 051 30472 4k7 5% 0.062W
3115 4822 051 30472 4k7 5% 0.062W
3116 4822 051 30472 4k7 5% 0.062W
3117 4822 051 30472 4k7 5% 0.062W
3118 4822 051 30472 4k7 5% 0.062W
3119 4822 051 30472 4k7 5% 0.062W
3120 4822 051 30479 47Ω 5% 0.062W
3123 4822 051 30479 47Ω 5% 0.062W
3124 4822 051 30332 3k3 5% 0.062W
3125 4822 051 30332 3k3 5% 0.062W
3126 4822 051 30332 3k3 5% 0.062W
3127 4822 051 30332 3k3 5% 0.062W
3128 4822 051 30479 47Ω 5% 0.062W
3129 4822 051 30105 1M 5% 0.062W
3130 4822 051 30221 220Ω 5% 0.062W
3200 4822 051 30273 27k 5% 0.062W
3201 4822 117 11151 1Ω 5%
3436 4822 051 30101 100Ω 5% 0.062W
3574 4822 051 30221 220Ω 5% 0.062W
3437 5322 117 13052 2k7 1% 0.063W 0603 RC22H 3575 4822 051 30102 1k 5% 0.062W
3438 5322 117 13046 1k8 1% 0.063W 0603 RC22H 3576 4822 051 30103 10k 5% 0.062W
3439 5322 117 13046 1k8 1% 0.063W 0603 RC22H 3577 4822 051 30103 10k 5% 0.062W
3440 5322 117 13046 1k8 1% 0.063W 0603 RC22H 3579 4822 117 12925 47k 1% 0.063W 0603
3441 5322 117 13046 1k8 1% 0.063W 0603 RC22H 3580 4822 051 30101 100Ω 5% 0.062W
3501 4822 051 30109 10Ω 5% 0.062W
3502 4822 051 30109 10Ω 5% 0.062W
3504 4822 051 30109 10Ω 5% 0.062W
3505 4822 051 30109 10Ω 5% 0.062W
3506 4822 117 12706 10k 1% 0.063W CASE0603 3590 4822 051 30332 3k3 5% 0.062W
RC22H 3591 4822 117 12925 47k 1% 0.063W 0603
3507 4822 117 12706 10k 1% 0.063W CASE0603 3592 4822 117 12925 47k 1% 0.063W 0603
RC22H 3600 4822 051 30103 10k 5% 0.062W
3581 4822 051 30472 4k7 5% 0.062W
3582 4822 051 30103 10k 5% 0.062W
3583 4822 051 30103 10k 5% 0.062W
3584 4822 051 30103 10k 5% 0.062W
3508 5322 117 13022 22k 1% 0.063W 0603 RC22H 3601 4822 051 30332 3k3 5% 0.062W
3510 4822 117 12706 10k 1% 0.063W CASE0603 3602 4822 051 30223 22k 5% 0.062W
RC22H
3603 4822 051 30222 2k2 5% 0.062W
3511 5322 117 13048 3k3 1% 0.063W 0603 RC22H 3604 4822 051 30101 100Ω 5% 0.062W
3512 4822 117 12706 10k 1% 0.063W CASE0603 3605 4822 051 30101 100Ω 5% 0.062W
RC22H
3606 4822 051 30101 100Ω 5% 0.062W
3513 4822 117 12706 10k 1% 0.063W CASE0603 3607 4822 051 30101 100Ω 5% 0.062W
RC22H 3608 4822 051 30101 100Ω 5% 0.062W
3514 4822 117 12706 10k 1% 0.063W CASE0603 3609 4822 051 30101 100Ω 5% 0.062W
RC22H 3610 4822 051 30103 10k 5% 0.062W
3515 5322 117 13048 3k3 1% 0.063W 0603 RC22H 3611 4822 051 30183 18k 5% 0.062W
3516 5322 117 13022 22k 1% 0.063W 0603 RC22H 3612 4822 051 30223 22k 5% 0.062W
3517 4822 117 12706 10k 1% 0.063W CASE0603 3614 4822 051 30569 56Ω 5% 0.062W
RC22H
3518 4822 117 12706 10k 1% 0.063W CASE0603 3616 4822 051 30689 68Ω 5% 0.063W 0603 RC21
RC22H RST SM
3519 4822 117 12706 10k 1% 0.063W CASE0603 3617 4822 051 30689 68Ω 5% 0.063W 0603 RC21
3615 4822 051 30569 56Ω 5% 0.062W
3202 4822 117 11151 1Ω 5%
3203 4822 051 30273 27k 5% 0.062W
3204 4822 051 30472 4k7 5% 0.062W
3205 4822 051 30222 2k2 5% 0.062W
3206 4822 051 30222 2k2 5% 0.062W
3207 4822 051 30222 2k2 5% 0.062W
3208 4822 051 30331 330Ω 5% 0.062W
3210 4822 051 30222 2k2 5% 0.062W
3211 4822 051 30222 2k2 5% 0.062W
3212 4822 051 30472 4k7 5% 0.062W
3213 4822 051 30222 2k2 5% 0.062W
3214 4822 051 30222 2k2 5% 0.062W
3215 4822 051 30273 27k 5% 0.062W
3300 4822 051 30479 47Ω 5% 0.062W
3301 4822 051 30759 75Ω 5% 0.062W
3304 5322 117 13034 1k5 1% 0.063W 0603 RC22H
RC22H
RST SM
3520 5322 117 13022 22k 1% 0.063W 0603 RC22H 3618 4822 051 30569 56Ω 5% 0.063W
3521 5322 117 13048 3k3 1% 0.063W 0603 RC22H 3619 4822 051 30471 470Ω 5% 0.062W
3522 4822 117 12706 10k 1% 0.063W CASE0603 3620 4822 051 30221 220Ω 5% 0.062W
RC22H
3621 4822 051 30153 15k 5% 0.062W
3523 4822 117 12706 10k 1% 0.063W CASE0603 3622 4822 051 30222 2k2 5% 0.062W
RC22H 3623 4822 051 30759 75Ω 5% 0.062W
3524 4822 117 12706 10k 1% 0.063W CASE0603 3624 4822 051 30222 2k2 5% 0.062W
RC22H
3625 4822 051 30759 75Ω 5% 0.062W
3525 5322 117 13022 22k 1% 0.063W 0603 RC22H 3626 4822 051 30222 2k2 5% 0.062W
3526 5322 117 13048 3k3 1% 0.063W 0603 RC22H 3627 4822 051 30759 75Ω 5% 0.062W
3527 4822 117 12706 10k 1% 0.063W CASE0603 3628 4822 051 30222 2k2 5% 0.062W
RC22H
3528 4822 117 12706 10k 1% 0.063W CASE0603 3630 4822 051 30222 2k2 5% 0.062W
RC22H 3631 4822 051 30759 75Ω 5% 0.062W
3629 4822 051 30759 75Ω 5% 0.062W
Spare Parts List
10.
3632 4822 051 30222 2k2 5% 0.062W
3633 4822 051 30759 75Ω 5% 0.062W
3634 4822 051 30103 10k 5% 0.062W
3635 4822 051 30103 10k 5% 0.062W
3636 4822 051 30103 10k 5% 0.062W
3637 4822 117 12902 8k2 1% 0.063W 0603
3638 4822 051 30183 18k 5% 0.062W
3639 4822 051 30101 100Ω 5% 0.062W
3640 4822 051 30222 2k2 5% 0.062W
7204 9352 105 20118 IC SM 74LVC161DB (PHSE)
R
7205 9352 105 20118 IC SM 74LVC161DB (PHSE)
R
7206 9352 424 10118 IC SM 74LVC04ADB (PHSE)
R
7207 9322 186 80668 IC SM 74AC00M (ST00) R
7220 5322 130 60159 BC846B
7221 5322 130 60159 BC846B
2102 3198 024 44730 47nF 50V 0603
2103 4822 124 41584 100µF 20% 10V
2104 2020 552 94427 0603 50V 100P 5%
2105 2020 552 94427 0603 50V 100P 5%
2106 2020 552 94427 0603 50V 100P 5%
2107 4822 124 81151 22µF 50V
3641 4822 051 30689 68Ω 5% 0.063W 0603 RC21 7222 5322 130 60159 BC846B
2108 5322 126 11578 1nF 10% 50V 0603
2122 4822 126 13883 220pF 5% 50V
2123 4822 126 13883 220pF 5% 50V
2124 4822 126 14549 33nF 16V O6O3
2127 4822 124 40207 100µF 20% 25V
2129 3198 024 44730 47nF 50V 0603
2131 3198 024 44730 47nF 50V 0603
2135 4822 126 14549 33nF 16V O6O3
2136 4822 124 40433 47µF 20% 25V
2137 4822 122 33761 22pF 5% 50V
2138 4822 124 81151 22µF 50V
2139 4822 124 40769 4.7µF 20% 100V
2140 4822 126 14549 33nF 16V O6O3
2141 4822 126 14549 33nF 16V O6O3
2142 5322 126 11578 1nF 10% 50V 0603
2143 4822 124 81151 22µF 50V
RST SM
7300 9322 177 92671 IC SM CS4362-KQ (CILO) Y
3642 4822 051 30689 68Ω 5% 0.063W 0603 RC21 7301 9322 178 69668 IC SM AD1955ARS (ANA0)
RST SM
R
3643 4822 051 30101 100Ω 5% 0.062W
3644 4822 051 30101 100Ω 5% 0.062W
3645 4822 051 30222 2k2 5% 0.062W
7400 5322 209 14481 HEF4053BT
7401 4822 209 30095 LM833D
7402 4822 209 30095 LM833D
3646 4822 051 30689 68Ω 5% 0.063W 0603 RC21 7403 9322 184 52668 IC SM AD8022AR (ANA0) R
RST SM
7404 9322 184 52668 IC SM AD8022AR (ANA0) R
7405 9322 190 07685 IC SM AD8032AR (ANA0) R
3647 4822 051 30222 2k2 5% 0.062W
3648 4822 051 30689 68Ω 5% 0.063W 0603 RC21 7420 4822 130 42804 BC817-25
RST SM
3652 4822 051 30562 5k6 5% 0.063W 0603 RC21
RST SM
7501 9352 202 10118 IC SM NE5532AD8 (PHSE)
R
7502 9352 202 10118 IC SM NE5532AD8 (PHSE)
R
3653 4822 051 30103 10k 5% 0.062W
3655 4822 051 30562 5k6 5% 0.063W 0603 RC21 7521 4822 130 42804 BC817-25
RST SM
3659 4822 117 11151 1Ω 5%
3661 4822 117 11152 4Ω7 5%
3664 4822 117 11151 1Ω 5%
7522 4822 130 60373 BC856B
7523 4822 130 42804 BC817-25
7525 4822 130 42804 BC817-25
7527 4822 130 42804 BC817-25
3100 4822 051 30223 22k 5% 0.062W
3101 4822 117 12864 82k 5% 0.6W
3102 4822 117 12864 82k 5% 0.6W
3103 4822 051 30273 27k 5% 0.062W
3104 4822 117 12864 82k 5% 0.6W
3105 4822 051 30221 220Ω 5% 0.062W
3106 4822 117 12925 47k 1% 0.063W 0603
3107 4822 117 13632 100k 1% 0603 0.62W
3108 4822 051 30221 220Ω 5% 0.062W
3109 4822 051 30472 4k7 5% 0.062W
3110 4822 051 30472 4k7 5% 0.062W
3111 4822 051 30472 4k7 5% 0.062W
3112 4822 051 30472 4k7 5% 0.062W
3113 4822 051 30472 4k7 5% 0.062W
3114 4822 051 30472 4k7 5% 0.062W
3115 4822 051 30103 10k 5% 0.062W
3116 4822 051 30472 4k7 5% 0.062W
3117 4822 051 30472 4k7 5% 0.062W
3118 4822 051 30472 4k7 5% 0.062W
3119 4822 051 30103 10k 5% 0.062W
3120 4822 051 30472 4k7 5% 0.062W
3121 4822 051 30331 330Ω 5% 0.062W
3123 4822 051 30109 10Ω 5% 0.062W
3125 4822 051 30109 10Ω 5% 0.062W
3126 4822 051 30109 10Ω 5% 0.062W
3127 4822 117 11152 4Ω7 5%
3665 4822 051 30689 68Ω 5% 0.063W 0603 RC21 7529 4822 130 42804 BC817-25
RST SM
7531 4822 130 42804 BC817-25
7533 4822 130 42804 BC817-25
7535 4822 130 42804 BC817-25
7536 4822 130 60373 BC856B
7537 5322 130 60159 BC846B
7538 4822 130 60373 BC856B
7541 4822 130 60373 BC856B
7542 4822 130 60373 BC856B
7543 4822 130 60373 BC856B
7600 4822 209 17398 LD1117DT33
7601 9322 134 86668 LF80C
7602 9322 163 71668 IC SM MC79M08BDT
(ONSE) R
3666 4822 117 11151 1Ω 5%
3667 4822 117 11151 1Ω 5%
3669 4822 051 30101 100Ω 5% 0.062W
3670 4822 051 30101 100Ω 5% 0.062W
3671 4822 051 30472 4k7 5% 0.062W
3672 4822 117 12903 1k8 1% 0.063W 0603
3673 4822 051 30569 56Ω 5% 0.062W
3674 4822 051 30332 3k3 5% 0.062W
3675 4822 051 30332 3k3 5% 0.062W
3676 4822 051 30332 3k3 5% 0.062W
3677 4822 051 30471 470Ω 5% 0.062W
3678 4822 051 30222 2k2 5% 0.062W
3679 4822 051 30221 220Ω 5% 0.062W
3680 4822 051 30684 680k 5% 0.062W
3681 4822 051 30333 33k 5% 0.062W
7603 9322 140 81668 IC SM LF50CDT (ST00) R
7604 9322 155 28667 OPT FIB CON GP1FA550TZ
(SRPJ)L
3682 4822 051 30562 5k6 5% 0.063W 0603 RC21 7620 5322 130 60159 BC846B
RST SM
7621 4822 130 42804 BC817-25
7622 4822 130 42804 BC817-25
7623 4822 130 42804 BC817-25
7624 4822 130 42804 BC817-25
7625 4822 130 42804 BC817-25
7626 4822 130 42804 BC817-25
7627 5322 130 60159 BC846B
7628 5322 130 60159 BC846B
7629 5322 130 60159 BC846B
7630 5322 130 60159 BC846B
7631 4822 130 42804 BC817-25
7632 4822 130 42804 BC817-25
7633 4822 130 42804 BC817-25
7636 4822 130 60373 BC856B
7638 5322 130 60159 BC846B
7641 9322 163 53685 FET POW SM IRLML2502
(INR0) R
3683 4822 051 30103 10k 5% 0.062W
3684 4822 051 30103 10k 5% 0.062W
5300 4822 157 10586 2.2µH 10% 0805
5301 4822 157 10586 2.2µH 10% 0805
5601 2422 535 94092 IND FXD SM 0805 33U
PM10 R
5602 2422 535 94092 IND FXD SM 0805 33U
PM10 R
5603 2422 535 94092 IND FXD SM 0805 33U
PM10 R
5606 4822 157 11074 100µH
5607 4822 157 70601 100µH (920927085A)
3128 4822 117 11152 4Ω7 5%
3129 4822 051 30331 330Ω 5% 0.062W
3130 4822 051 30331 330Ω 5% 0.062W
3131 4822 051 30472 4k7 5% 0.062W
3133 4822 051 30471 470Ω 5% 0.062W
3134 4822 051 30109 10Ω 5% 0.062W
3135 4822 051 30102 1k 5% 0.062W
3138 4822 051 30103 10k 5% 0.062W
3139 4822 051 30471 470Ω 5% 0.062W
3140 4822 051 30103 10k 5% 0.062W
3141 4822 051 30103 10k 5% 0.062W
3142 4822 051 30109 10Ω 5% 0.062W
3146 4822 051 30471 470Ω 5% 0.062W
3147 4822 051 30471 470Ω 5% 0.062W
3148 4822 051 30103 10k 5% 0.062W
3149 4822 051 30103 10k 5% 0.062W
3150 4822 051 30331 330Ω 5% 0.062W
3151 4822 051 30331 330Ω 5% 0.062W
3152 4822 051 30471 470Ω 5% 0.062W
3153 4822 051 30471 470Ω 5% 0.062W
3154 4822 051 30103 10k 5% 0.062W
3155 4822 051 30103 10k 5% 0.062W
3156 4822 051 30331 330Ω 5% 0.062W
3157 4822 051 30331 330Ω 5% 0.062W
3158 4822 051 30221 220Ω 5% 0.062W
3200 4822 051 30101 100Ω 5% 0.062W
7642 5322 130 60159 BC846B
7643 5322 130 60159 BC846B
6500 4822 130 11397 BAS316
6602 4822 130 11522 UDZ15B
6603 4822 130 11522 UDZ15B
6604 4822 130 11522 UDZ15B
6606 4822 130 11397 BAS316
6607 4822 130 11522 UDZ15B
Front PWB
Various
0002 3139 244 00440 FTD HOLDER DVD711
1100 4822 267 10565 4P
1101 4822 276 13775 SWITCH
1102 4822 276 13775 SWITCH
1103 4822 276 13775 SWITCH
1104 4822 276 13775 SWITCH
1105 4822 276 13775 SWITCH
1106 4822 276 13775 SWITCH
1108 4822 267 10574 CON BM V 8P 2.50
1111 3139 240 50231 VFD 15-MT-70GNK (FTBO)
Y
1112 4822 276 13775 SWITCH
1113 4822 276 13775 SWITCH
1114 4822 276 13775 SWITCH
1119 4822 242 72066 CST8,00MT
1201 4822 276 13775 SWITCH
1205 4822 267 10567 4P
7100 9965 000 06673 TC7WHU04FU
7101 9965 000 06673 TC7WHU04FU
7102 4822 209 17441 74LVC74AD
7103 9965 000 06673 TC7WHU04FU
7105 9352 499 60118 IC SM 74LVC00AD (PHSE)
R
7106 9352 499 60118 IC SM 74LVC00AD (PHSE)
R
6100 9340 255 30135 BAS216
6101 9965 000 04709 UDZ6.2BTE-17
6103 9340 255 30135 BAS216
6104 9322 185 23676 LED VS LTL1CHTDK3
(LITO) A
6105 9322 185 23676 LED VS LTL1CHTDK3
(LITO) A
6106 9322 185 23676 LED VS LTL1CHTDK3
(LITO) A
7107 5322 209 11578 PCF8574T
7121 9965 000 04199 BSN20
7122 9965 000 04199 BSN20
7200 4822 209 17455 74LVC157AD
7201 9322 177 89668 IC SM AD1895YRS (ANA0)
R
7202 9352 115 40118 IC SM 74LVC245APW
(PHSE) R
7203 9322 178 30669 IC SM AK4103VF (AKM0) R
Spare Parts List
EN 94
10.
6107 9322 185 23676 LED VS LTL1CHTDK3
2213 2238 586 59812 0603 50V 100NP80M
2214 2238 586 59812 0603 50V 100NP80M
2215 2238 586 59812 0603 50V 100NP80M
2216 2238 586 59812 0603 50V 100NP80M
2217 2238 586 59812 0603 50V 100NP80M
2218 2238 586 59812 0603 50V 100NP80M
2220 2238 586 59812 0603 50V 100NP80M
2221 5322 126 11579 3.3nF 10% 63V
2222 3198 016 38210 0603 25V 820P COL
2223 4822 124 40769 4.7µF 20% 100V
2300 2238 586 59812 0603 50V 100NP80M
2301 4822 122 33761 22pF 5% 50V
2302 4822 126 11785 0603 50V 47P 5%
2304 4822 124 40184 1000µF 20% 10V
2305 2238 586 59812 0603 50V 100NP80M
2306 2238 586 59812 0603 50V 100NP80M
2307 3198 017 44740 0603 10V 470nF COL
2308 4822 124 81286 47µF 20% 16V
2309 2238 586 59812 0603 50V 100NP80M
2310 4822 122 33761 22pF 5% 50V
2311 4822 126 11785 0603 50V 47P 5%
2313 2238 586 59812 0603 50V 100NP80M
2314 4822 124 40184 1000µF 20% 10V
2315 4822 124 81286 47µF 20% 16V
2316 2238 586 59812 0603 50V 100NP80M
2317 4822 122 33761 22pF 5% 50V
2318 4822 126 11785 0603 50V 47P 5%
2320 4822 124 81286 47µF 20% 16V
2321 4822 124 81286 47µF 20% 16V
2322 4822 124 81286 47µF 20% 16V
2323 4822 124 81286 47µF 20% 16V
3161 4822 117 12139 22Ω 5% 0.062W
3162 4822 117 12139 22Ω 5% 0.062W
3163 4822 117 12139 22Ω 5% 0.062W
3164 4822 117 12139 22Ω 5% 0.062W
3165 4822 117 12139 22Ω 5% 0.062W
3166 4822 117 12139 22Ω 5% 0.062W
3170 4822 051 30008 0Ω jumper
(LITO) A
6200 9322 190 53676 LED VS LTL42HCWK5P
(LITO) A
3172 4822 051 30008 0Ω jumper
7100 5322 130 60159 BC846B
7101 5322 130 60159 BC846B
7102 5322 130 60159 BC846B
7103 5322 130 60159 BC846B
7104 4822 130 60373 BC856B
7105 5322 130 60159 BC846B
7106 4822 130 40981 BC337-25
7108 5322 130 60159 BC846B
7109 4822 130 40854 BC327
7111 4822 130 60373 BC856B
7112 4822 130 60373 BC856B
7113 4822 130 60373 BC856B
7114 4822 130 60373 BC856B
7401 3139 240 50221 TMP87CH74F-3NB2
DVDV2.21
3173 4822 117 12139 22Ω 5% 0.062W
3174 4822 117 12139 22Ω 5% 0.062W
3175 4822 117 12139 22Ω 5% 0.062W
3176 4822 117 12139 22Ω 5% 0.062W
3177 4822 117 12139 22Ω 5% 0.062W
3178 4822 117 12139 22Ω 5% 0.062W
3179 4822 117 12139 22Ω 5% 0.062W
3180 4822 117 12139 22Ω 5% 0.062W
3181 4822 117 12139 22Ω 5% 0.062W
3182 4822 117 12139 22Ω 5% 0.062W
3183 4822 117 12139 22Ω 5% 0.062W
3201 4822 051 30472 4k7 5% 0.062W
3203 4822 051 30152 1k5 5% 0.062W
3204 4822 117 12139 22Ω 5% 0.062W
3205 4822 051 30152 1k5 5% 0.062W
3206 4822 117 12139 22Ω 5% 0.062W
3207 4822 051 30472 4k7 5% 0.062W
3208 4822 051 30472 4k7 5% 0.062W
3209 4822 051 30101 100Ω 5% 0.062W
3210 4822 051 30103 10k 5% 0.062W
3211 4822 051 30101 100Ω 5% 0.062W
3212 4822 051 30103 10k 5% 0.062W
3213 4822 051 30101 100Ω 5% 0.062W
3214 4822 051 30101 100Ω 5% 0.062W
3215 4822 051 30472 4k7 5% 0.062W
3216 4822 051 30681 680Ω 5% 0.062W
3300 4822 051 30759 75Ω 5% 0.062W
3302 2322 704 63001 300R 1% 0.063W 0603
3303 2322 704 63001 300R 1% 0.063W 0603
3305 4822 051 30102 1k 5% 0.062W
3306 2322 704 63002 3k 1% 0.063W 0603
3307 4822 051 30759 75Ω 5% 0.062W
3309 2322 704 63001 300R 1% 0.063W 0603
3310 2322 704 63001 300R 1% 0.063W 0603
3312 4822 051 30102 1k 5% 0.062W
3313 2322 704 63002 3k 1% 0.063W 0603
3314 4822 117 11152 4Ω7 5%
7402 9322 155 82667 IR RECEIVER TSOP2236
P Scan PWB
Various
1000 2422 025 17599 CON BM H 24P F 1.00 FFC
0.3 R
1003 2422 026 05191 CON BM CINCH H 3P F
RDBUGN B
1203 2422 127 00548 SWI SLID 1P 2POS SM
SSSS21 R
3100 4822 051 30109 10Ω 5% 0.062W
3101 4822 051 30151 150Ω 5% 0.062W
3102 4822 117 12139 22Ω 5% 0.062W
3103 4822 117 12139 22Ω 5% 0.062W
3104 4822 117 12139 22Ω 5% 0.062W
3107 4822 051 30101 100Ω 5% 0.062W
3108 4822 051 30101 100Ω 5% 0.062W
3109 4822 117 12139 22Ω 5% 0.062W
3110 4822 117 12139 22Ω 5% 0.062W
3111 4822 117 12139 22Ω 5% 0.062W
3112 4822 117 12139 22Ω 5% 0.062W
3113 4822 117 12139 22Ω 5% 0.062W
3114 4822 117 12139 22Ω 5% 0.062W
3115 4822 117 12139 22Ω 5% 0.062W
3116 4822 117 12139 22Ω 5% 0.062W
3117 4822 117 12139 22Ω 5% 0.062W
3118 4822 117 12139 22Ω 5% 0.062W
3119 4822 117 12139 22Ω 5% 0.062W
3120 4822 117 12139 22Ω 5% 0.062W
3121 4822 117 12139 22Ω 5% 0.062W
3122 4822 117 12139 22Ω 5% 0.062W
3123 4822 117 12139 22Ω 5% 0.062W
3124 4822 117 12139 22Ω 5% 0.062W
3125 4822 117 12139 22Ω 5% 0.062W
3126 4822 117 12139 22Ω 5% 0.062W
3127 4822 117 12139 22Ω 5% 0.062W
3128 4822 117 12139 22Ω 5% 0.062W
3129 4822 117 12139 22Ω 5% 0.062W
3130 4822 117 12139 22Ω 5% 0.062W
3131 4822 117 12139 22Ω 5% 0.062W
3132 4822 117 12139 22Ω 5% 0.062W
3133 4822 117 12139 22Ω 5% 0.062W
3134 4822 117 12139 22Ω 5% 0.062W
3135 4822 117 12139 22Ω 5% 0.062W
3136 4822 117 12139 22Ω 5% 0.062W
3137 4822 117 12139 22Ω 5% 0.062W
3138 4822 117 12139 22Ω 5% 0.062W
3139 4822 117 12139 22Ω 5% 0.062W
3140 4822 117 12139 22Ω 5% 0.062W
3141 4822 117 12139 22Ω 5% 0.062W
3142 4822 117 12139 22Ω 5% 0.062W
3143 4822 117 12139 22Ω 5% 0.062W
3144 4822 117 12139 22Ω 5% 0.062W
3145 4822 117 12139 22Ω 5% 0.062W
3146 4822 117 12139 22Ω 5% 0.062W
3147 4822 117 12139 22Ω 5% 0.062W
3148 4822 117 12139 22Ω 5% 0.062W
3149 4822 117 12139 22Ω 5% 0.062W
3150 4822 051 30472 4k7 5% 0.062W
3151 4822 117 12139 22Ω 5% 0.062W
3152 4822 117 12139 22Ω 5% 0.062W
3153 4822 117 12139 22Ω 5% 0.062W
3154 4822 117 12139 22Ω 5% 0.062W
3155 4822 117 12139 22Ω 5% 0.062W
3156 4822 117 12139 22Ω 5% 0.062W
3157 4822 117 12139 22Ω 5% 0.062W
3158 4822 117 12139 22Ω 5% 0.062W
3159 4822 117 12139 22Ω 5% 0.062W
3160 4822 117 12139 22Ω 5% 0.062W
2100 4822 124 81286 47µF 20% 16V
2101 2238 586 59812 0603 50V 100NP80M
2102 3198 017 44740 0603 10V 470nF COL
2103 4822 124 81286 47µF 20% 16V
2105 2238 586 59812 0603 50V 100NP80M
2106 2238 586 59812 0603 50V 100NP80M
2107 4822 124 81286 47µF 20% 16V
3316 2322 704 63001 300R 1% 0.063W 0603
3317 2322 704 63001 300R 1% 0.063W 0603
3319 4822 051 30759 75Ω 5% 0.062W
3320 4822 051 30102 1k 5% 0.062W
3321 2322 704 63002 3k 1% 0.063W 0603
2108 4822 124 11947 10µF 20% 16V
2109 2238 586 59812 0603 50V 100NP80M
2110 2238 586 59812 0603 50V 100NP80M
2111 2238 586 59812 0603 50V 100NP80M
2112 2238 586 59812 0603 50V 100NP80M
2113 2238 586 59812 0603 50V 100NP80M
2114 2238 586 59812 0603 50V 100NP80M
2115 2238 586 59812 0603 50V 100NP80M
2116 2238 586 59812 0603 50V 100NP80M
2117 2238 586 59812 0603 50V 100NP80M
2118 2238 586 59812 0603 50V 100NP80M
2119 2238 586 59812 0603 50V 100NP80M
2120 2238 586 59812 0603 50V 100NP80M
2121 2238 586 59812 0603 50V 100NP80M
2122 2238 586 59812 0603 50V 100NP80M
2123 2238 586 59812 0603 50V 100NP80M
2124 2238 586 59812 0603 50V 100NP80M
2125 2238 586 59812 0603 50V 100NP80M
2126 2238 586 59812 0603 50V 100NP80M
2127 2238 586 59812 0603 50V 100NP80M
2128 2238 586 59812 0603 50V 100NP80M
2129 2238 586 59812 0603 50V 100NP80M
2130 4822 126 13879 220nF 20% 16V
2131 4822 126 13879 220nF 20% 16V
2132 4822 126 13879 220nF 20% 16V
2133 4822 126 13879 220nF 20% 16V
2134 2238 586 59812 0603 50V 100NP80M
2135 2238 586 59812 0603 50V 100NP80M
2136 2238 586 59812 0603 50V 100NP80M
2137 2238 586 59812 0603 50V 100NP80M
2138 2238 586 59812 0603 50V 100NP80M
2139 2238 586 59812 0603 50V 100NP80M
2140 4822 126 13879 220nF 20% 16V
2141 4822 126 13879 220nF 20% 16V
2142 4822 126 13879 220nF 20% 16V
2143 4822 126 13879 220nF 20% 16V
2144 4822 126 13879 220nF 20% 16V
2145 4822 126 13879 220nF 20% 16V
2146 4822 126 13879 220nF 20% 16V
2147 4822 126 13879 220nF 20% 16V
2148 2238 586 59812 0603 50V 100NP80M
2149 2238 586 59812 0603 50V 100NP80M
2150 4822 122 33741 10pF 10% 50V
5100 4822 051 30008 0 ohm jumper
5101 4822 157 71593 10µH 10%
5102 4822 157 71593 10µH 10%
5201 4822 157 71593 10µH 10%
5202 4822 157 11716 BLM21P300SPT
5203 4822 157 11716 BLM21P300SPT
5300 4822 157 10977 4.7µH 10%
5301 3198 018 31580 FXDIND SM 0805 1U5 PM10
COL R
5302 4822 051 30008 0R00 JUMPER
5305 4822 157 10977 4.7µH 10%
5306 3198 018 31580 FXDIND SM 0805 1U5 PM10
COL R
5307 4822 157 10977 4.7µH 10%
5308 3198 018 31580 FXDIND SM 0805 1U5 PM10
COL R
5309 4822 157 71593 10µH 10%
5310 4822 157 71593 10µH 10%
5311 4822 157 71593 10µH 10%
5312 4822 157 71593 10µH 10%
7100 9322 189 94671 IC SM FLI2310
7101 9322 166 71668 IC SM MT48LC2M32B2TG-6
(MRN0)R
7103 9322 179 78668 IC SM LF18ABDT (ST00) R
7200 9352 092 60118 IC SM 74LVT74DB (PHSE) R
7201 5322 209 11578 PCF8574T
7202 9322 178 70671 IC SM ADV7300ST (ANA0) Y
7203 9352 092 90118 IC SM 74LVT86DB (PHSE) R
7300 9322 142 88668 IC SM LF25CDT (ST00) R
7301 9322 167 49685 IC SM AD8061ART (ANA0)
R
7302 9322 167 49685 IC SM AD8061ART (ANA0)
R
7303 9322 167 49685 IC SM AD8061ART (ANA0)
R
2209 2238 586 59812 0603 50V 100NP80M
2210 2238 586 59812 0603 50V 100NP80M
2211 2238 586 59812 0603 50V 100NP80M
2212 2238 586 59812 0603 50V 100NP80M
Spare Parts List
10.
3209 4822 051 30471 470Ω 5% 0.062W
7207 4822 130 60511 BC847B
7208 4822 130 60511 BC847B
7209 4822 130 60511 BC847B
3210 4822 051 30471 470Ω 5% 0.062W
SCART PWB
3211 4822 051 30101 100Ω 5% 0.062W
3212 4822 051 30689 68Ω 5% 0.063W 0603 RC21 7210 4822 130 42804 BC817-25
Various
RST SM
7211 4822 130 42804 BC817-25
7212 4822 130 60511 BC847B
7213 4822 130 60373 BC856B
7214 4822 130 60511 BC847B
3213 4822 051 30471 470Ω 5% 0.062W
3214 4822 051 30471 470Ω 5% 0.062W
3215 4822 051 30101 100Ω 5% 0.062W
1000 2422 025 12352 CON BM EURO H 21P F BK
GRND-L
1001 2422 025 12352 CON BM EURO H 21P F BK
3216 4822 051 30689 68Ω 5% 0.063W 0603 RC21 7215 4822 130 42804 BC817-25
GRND-L
1300 2422 025 16526 CON BM V 22P F 1.00 FFC
0.3 R
RST SM
7216 4822 130 42804 BC817-25
7217 4822 130 60511 BC847B
7218 4822 130 60511 BC847B
7219 4822 130 42804 BC817-25
7220 4822 130 42804 BC817-25
7500 9322 134 86668 LF80C
7501 9322 135 59671 STV6411AD
3217 4822 051 30151 150Ω 5% 0.062W
3218 4822 051 30101 100Ω 5% 0.062W
3219 4822 051 30472 4k7 5% 0.062W
3220 4822 051 30472 4k7 5% 0.062W
3221 4822 051 30472 4k7 5% 0.062W
3222 4822 117 13632 100k 1% 0603 0.62W
3223 4822 051 30471 470Ω 5% 0.062W
3224 4822 051 30151 150Ω 5% 0.062W
3225 4822 051 30471 470Ω 5% 0.062W
3226 4822 051 30472 4k7 5% 0.062W
3227 4822 051 30471 470Ω 5% 0.062W
3228 4822 051 30222 2k2 5% 0.062W
3229 4822 051 30689 68Ω 5% 0.063W 0603 RC21
RST SM
2100 4822 124 11947 10µF 20% 16V
2101 4822 124 40207 100µF 20% 25V
2102 4822 126 14305 100nF 10% 16V 0603
2103 4822 126 14305 100nF 10% 16V 0603
2104 4822 126 14305 100nF 10% 16V 0603
2105 4822 122 33777 47pF 5% 63V
2106 4822 122 33777 47pF 5% 63V
2107 4822 126 14305 100nF 10% 16V 0603
2108 4822 126 14305 100nF 10% 16V 0603
2109 4822 126 14305 100nF 10% 16V 0603
2110 4822 124 41584 100µF 20% 10V
2111 4822 126 14494 22nF 10% 25V 0603
2112 4822 126 14305 100nF 10% 16V 0603
2113 4822 126 14305 100nF 10% 16V 0603
2114 3198 017 44740 0603 10V 470nF COL
2115 3198 017 44740 0603 10V 470nF COL
2116 3198 017 44740 0603 10V 470nF COL
2117 4822 124 11947 10µF 20% 16V
2118 4822 124 11947 10µF 20% 16V
2119 4822 124 21732 10µF 20% 25V
2120 3198 017 44740 0603 10V 470nF COL
2121 4822 124 40207 100µF 20% 25V
2122 4822 126 14305 100nF 10% 16V 0603
2200 4822 124 12032 4.7µF 20% 50V
2201 4822 126 13883 220pF 5% 50V
2202 4822 124 12032 4.7µF 20% 50V
2203 4822 124 12032 4.7µF 20% 50V
2204 4822 124 12032 4.7µF 20% 50V
2205 4822 122 31765 100pF 2% 63V 1206
2206 4822 126 13883 220pF 5% 50V
2207 4822 126 13883 220pF 5% 50V
2208 4822 126 13883 220pF 5% 50V
2209 4822 126 13883 220pF 5% 50V
2210 4822 126 13883 220pF 5% 50V
2211 4822 124 21732 10µF 20% 25V
2212 4822 124 12032 4.7µF 20% 50V
2213 4822 124 12032 4.7µF 20% 50V
2214 4822 124 12032 4.7µF 20% 50V
2215 4822 124 12032 4.7µF 20% 50V
2216 4822 126 13883 220pF 5% 50V
2217 4822 126 13883 220pF 5% 50V
2218 4822 122 31765 100pF 2% 63V 1206
2219 4822 124 11947 10µF 20% 16V
2220 4822 126 13883 220pF 5% 50V
2221 4822 124 11947 10µF 20% 16V
2222 4822 126 13883 220pF 5% 50V
2223 4822 126 13883 220pF 5% 50V
2224 4822 126 13883 220pF 5% 50V
2225 4822 124 21732 10µF 20% 25V
2226 4822 126 13883 220pF 5% 50V
3230 4822 051 30759 75Ω 5% 0.062W
3231 4822 051 30561 560Ω 5% 0.062W
3232 4822 051 30101 100Ω 5% 0.062W
3233 4822 051 30471 470Ω 5% 0.062W
3234 4822 051 30339 33Ω 5% 0.062W
3235 4822 051 30689 68Ω 5% 0.063W 0603 RC21
RST SM
3236 4822 051 30472 4k7 5% 0.062W
3237 4822 051 30562 5k6 5% 0.063W 0603 RC21
RST SM
3238 4822 051 30479 47Ω 5% 0.062W
3239 4822 051 30472 4k7 5% 0.062W
3240 4822 051 30102 1k 5% 0.062W
3241 4822 117 12925 47k 1% 0.063W 0603
3242 4822 051 30471 470Ω 5% 0.062W
3243 4822 117 12925 47k 1% 0.063W 0603
3244 4822 051 30272 2k7 5% 0.062W
3245 4822 051 30102 1k 5% 0.062W
3246 4822 117 12925 47k 1% 0.063W 0603
3247 4822 051 30471 470Ω 5% 0.062W
3248 4822 117 12925 47k 1% 0.063W 0603
3249 4822 051 30102 1k 5% 0.062W
3250 4822 117 12925 47k 1% 0.063W 0603
3251 4822 051 30471 470Ω 5% 0.062W
3252 4822 051 30471 470Ω 5% 0.062W
3253 4822 051 30472 4k7 5% 0.062W
3254 4822 051 30759 75Ω 5% 0.062W
3255 4822 051 30472 4k7 5% 0.062W
3257 4822 051 30759 75Ω 5% 0.062W
3258 4822 051 30471 470Ω 5% 0.062W
3259 4822 051 30339 33Ω 5% 0.062W
3260 4822 051 30561 560Ω 5% 0.062W
3261 4822 051 30472 4k7 5% 0.062W
3262 4822 051 30759 75Ω 5% 0.062W
3263 4822 051 30472 4k7 5% 0.062W
3264 4822 051 30479 47Ω 5% 0.062W
3266 4822 051 30759 75Ω 5% 0.062W
3267 4822 051 30472 4k7 5% 0.062W
3268 4822 051 30101 100Ω 5% 0.062W
3269 4822 051 30689 68Ω 5% 0.063W 0603 RC21
RST SM
3270 4822 051 30471 470Ω 5% 0.062W
3271 4822 051 30759 75Ω 5% 0.062W
3272 4822 051 30273 27k 5% 0.062W
3273 4822 117 12925 47k 1% 0.063W 0603
3275 4822 051 30272 2k7 5% 0.062W
3276 4822 051 30472 4k7 5% 0.062W
3277 4822 051 30561 560Ω 5% 0.062W
3278 4822 051 30561 560Ω 5% 0.062W
3100 4822 117 11152 4Ω7 5%
3102 4822 051 30103 10k 5% 0.062W
3104 4822 051 30472 4k7 5% 0.062W
3105 4822 051 30103 10k 5% 0.062W
3106 4822 051 30103 10k 5% 0.062W
3107 4822 051 30101 100Ω 5% 0.062W
3108 4822 051 30101 100Ω 5% 0.062W
3109 4822 051 30472 4k7 5% 0.062W
3110 4822 051 30103 10k 5% 0.062W
3111 4822 051 30102 1k 5% 0.062W
3112 4822 051 30472 4k7 5% 0.062W
3113 4822 051 30103 10k 5% 0.062W
3114 4822 051 30471 470Ω 5% 0.062W
3115 4822 051 30471 470Ω 5% 0.062W
3116 4822 051 30103 10k 5% 0.062W
3117 4822 051 30472 4k7 5% 0.062W
3200 4822 051 30221 220Ω 5% 0.062W
3201 4822 117 12925 47k 1% 0.063W 0603
3202 4822 051 30471 470Ω 5% 0.062W
3203 4822 051 30273 27k 5% 0.062W
3204 4822 117 12925 47k 1% 0.063W 0603
3205 4822 051 30221 220Ω 5% 0.062W
3206 4822 117 12925 47k 1% 0.063W 0603
3207 4822 051 30273 27k 5% 0.062W
3208 4822 117 12925 47k 1% 0.063W 0603
6208 9340 548 63115 PDZ15B
7102 4822 130 60511 BC847B
7103 4822 130 60511 BC847B
7104 4822 130 60511 BC847B
7105 4822 130 60511 BC847B
7106 4822 130 40854 BC327
7200 4822 130 42804 BC817-25
7201 4822 130 42804 BC817-25
7202 4822 130 60511 BC847B
7203 4822 130 60511 BC847B
7204 4822 130 60511 BC847B
7205 4822 130 60373 BC856B
7206 4822 130 60511 BC847B
Errata
EN 96
11.
11. Errata
11.1 Revision List
11.1.1 Manual 3122 785 12331
From production start, the new print layout of the Pscan
board has been introduced.
•
In this service manual the circuit diagrams, print layout and
the belonging parts list are added.
In the manual 3122 785 12330, the Double Scart circuit
diagrams and print layout was left out.
•
In this version of the service manual, the circuit diagrams
and print layout are added.
In this version, the Layout of Menu script, Audio nuclei
table 5.8.1,Video nuclei table 5.8.7 and Furore nuclei table
5.8.8 are updated.
In this version, the value of C2102,C2129 and C2131 in the
parts list of Front board has been changed to 470nF 50V.
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