Page 1
HCD-X10
SERVICE MANUAL
Ver. 1.0 2007.06
• HCD-X10 is the amplifier, super audio CD/DVD
system, tuner and video section in DAV-X10.
This product incorporates copyright protection
technology that is protected by U.S. patents and
other intellectual property rights. Use of this
copyright protection technology must be
authorized by Macrovision, and is intended for
home and other limited viewing uses only
unless otherwise authorized by Macrovision.
Reverse engineering or disassembly is
prohibited.
This system incorporates with Dolby* Digital
and Dolby Pro Logic (II) adaptive matrix
surround decoder and the DTS** Digital
Surround System.
This system perfectly decodes 5.1 channel
signal, but you cannot add other commercially
available surround speakers.
* Manufactured under license from Dolby
Laboratories.
“Dolby”, “Pro Logic”, and the double-D
symbol are trademarks of Dolby
Laboratories.
** Manufactured under license from DTS, Inc.
“DTS” and “DTS Digital Surround” are
registered trademarks of DTS, Inc.
Amplifier section (US and Canadian models)
POWER OUTPUT AND TOTAL HARMONIC DISTORTION
(FTC Output Power)
for the US model
Front/Front surround: With 4 ohms loads, both channels
Subwoofer: With 4 ohms loads, both channels
Power output(rated)
for the Canadian model
Front/Front surround*: 70 W + 70 W
Subwoofer: 70 W + 70 W
RMS output power (reference)
Front/Front surround*: 80 W + 80 W
Subwoofer: 80 W + 80 W
*Depending on the sound field settings and the source, there
may be no sound output.
Inputs (Analog)
TV, SAT/CABLE, VIDEO
Impedance: 50 kilohms
Inputs (Digital/COAXIAL)
SAT/CABLE , VIDEO
Model Name Using Similar Mechanism HCD-X1
DVD Mechanism Type CDM85-DVBU102
Optical Pick-Up Block Name KHM-310CAA or KHM-313CAA
driven, from 150 - 20,000 Hz;
rated 38 watts per channel
minimum
RMS power, with no more than 0.7
% total harmonic distortion from
250 milli watts to rated output.
driven, from 25 - 150 Hz; rated 38
watts per channel minimum RMS
power, with no more than 0.7 %
total harmonic distortion from 250
milli watts to rated output.
(at 4 ohms, 1 kHz, 1 % THD)
(at 4 ohms, 100 Hz, 1 % THD)
(at 4 ohms, 1 kHz, 10 % THD)
(at 4 ohms, 100 Hz, 10 % THD)
Sensitivity: 450 mV (ATT ON),
250 mV (ATT OFF)
Impedance: 75 ohms
SPECIFICATIONS
Amplifier section (AEP and UK models)
Power output (rated)
Front/Front surround*: 70 W + 70 W
Subwoofer: 70 W + 70 W
RMS output power (reference)
Front/Front surround*: 80 W + 80 W
Subwoofer: 80 W + 80 W
*Depending on the sound field settings and the source, there
may be no sound output.
Inputs (Analog)
TV (EURO AV SCART), SAT/CABLE
Inputs (Digital/COAXIAL)
SAT/CABLE Impedance: 75 ohms
Video section (US and Canadian models)
Outputs VIDEO: 1 Vp-p 75 ohms
Inputs VIDEO: 1 Vp-p 75 ohms
Video section (AEP and UK models)
Outputs VIDEO: 1 Vp-p 75 ohms
US Model
Canadian Model
AEP Model
UK Model
(at 4 ohms, 1 kHz, 1 % THD)
(at 4 ohms, 100 Hz, 1 % THD)
(at 4 ohms, 1 kHz, 10 % THD)
(at 4 ohms, 100 Hz, 10 % THD)
Sensitivity: 450 mV (ATT ON),
250 mV (ATT OFF)
Impedance: 50 kilohms
S VIDEO:
Y: 1 Vp-p 75 ohms
C: 0.286 Vp-p 75 ohms
COMPONENT:
Y: 1 Vp-p 75 ohms
PB/CB, PR/CR: 0.7 Vp-p
75 ohms
HDMI OUT: Type A (19 pin)
RGB: 0.7 Vp-p 75 ohms
COMPONENT:
Y: 1 Vp-p 75 ohms
PB/CB, PR/CR: 0.7 Vp-p
– Continued on next page –
9-887-725-01
2007F05-1
© 2007.06
SUPER AUDIO CD/DVD RECEIVER
Sony Corporation
Home Audio Division
Published by Sony Techno Create Corporation
Page 2
HCD-X10
r
75 ohms
Inputs VIDEO: 1 Vp-p 75 ohms
Super Audio CD/DVD system
Laser Semiconductor laser
Signal format system US and Canadian models: NTSC
Tuner section
System PLL quartz-locked digital
FM tuner section
Tuning range 87.5 – 108.0 MHz
Antenna (aerial) FM wire antenna (aerial)
Antenna (aerial) terminal 75 ohms, unbalanced
Intermediate frequency 10.7 MHz
AM tuner section
Tuning range US and Canadian models:
Antenna (aerial) AM loop antenna (aerial)
Intermediate frequency 450 kHz
General (US and Canadian models)
Power requirements 120 V AC, 60 Hz
Power consumption On: 120 W
Output voltage/current
DIGITAL MEDIA PORT:
Dimensions (approx.) 381 × 79 × 327 mm (15 × 3 1/8 ×
Mass (approx.) 6.4 kg (14 lb 2 oz)
General (AEP and UK models)
Power requirements 230 V AC, 50/60 Hz
Power consumption On: 120 W
Output voltage/current
DIGITAL MEDIA PORT:
Dimensions (approx.) 381 × 79 × 327 mm (w/h/d)
Mass (approx.) 6.4 kg
Design and specifications are subject to change without notice.
HDMI OUT: Type A (19 pin)
(Super Audio CD/DVD: λ = 650
nm)
(CD: λ = 790 nm)
Emission duration:
continuous
AEP and UK models: PAL/NTSC
synthesizer system
530 – 1,710 kHz (with the interval
set at 10 kHz)
531 – 1,710 kHz (with the interval
set at 9 kHz)
AEP and UK models:
531 – 1,602 kHz
Standby: 0.3 W
DC 5 V/700 mA
12 7/8 inches) (w/h/d)
Standby: 0.3 W
DC 5 V/700 mA
Notes on chip component replacement
• Never reuse a disconnected chip component.
• Notice that the minus side of a tantalum capacitor may be
damaged by heat.
Flexible Circuit Board Repairing
• Keep the temperature of the soldering iron around 270 ˚C
during repairing.
• Do not touch the soldering iron on the same conductor of the
circuit board (within 3 times).
• Be careful not to apply force on the conductor when soldering
or unsoldering.
CAUTION
Use of controls or adjustments or performance of procedures
other than those specified herein may result in hazardous radiation
exposure.
This appliance is
classified as a CLASS 1
LASER product. This
marking is located on the
bottom exterior.
SAFETY CHECK-OUT
After correcting the original service problem, perform the following
safety check before releasing the set to the customer:
Check the antenna terminals, metal trim, “metallized” knobs, screws,
and all other exposed metal parts for AC leakage.
Check leakage as described below.
LEAKAGE TEST
The AC leakage from any exposed metal part to earth ground and
from all exposed metal parts to any exposed metal part having a
return to chassis, must not exceed 0.5 mA (500 microamperes.).
Leakage current can be measured by any one of three methods.
1. A commercial leakage tester, such as the Simpson 229 or RCA
WT -540A. Follow the manuf acturers’ instructions to use these
instruments.
2. A battery-operated A C milliammeter . The Data Precision 245
digital multimeter is suitable for this job.
3. Measuring the voltage drop across a resistor by means of a
VOM or battery-operated A C voltmeter . The “limit” indication
is 0.75 V, so analog meters must have an accurate low-v oltage
scale. The Simpson 250 and Sanwa SH-63Trd are examples
of a passive VOM that is suitable. Nearly all battery operated
digital multimeters that have a 2 V A C range are suitable. (See
Fig. A)
SAFETY-RELATED COMPONENT WARNING!!
COMPONENTS IDENTIFIED BY MARK 0 OR DOTTED LINE
WITH MARK 0 ON THE SCHEMATIC DIAGRAMS AND IN
THE PARTS LIST ARE CRITICAL TO SAFE OPERATION.
REPLACE THESE COMPONENTS WITH SONY P AR TS WHOSE
PART NUMBERS APPEAR AS SHOWN IN THIS MANU AL OR
IN SUPPLEMENTS PUBLISHED BY SONY.
ATTENTION AU COMPOSANT AYANT RAPPORT
À LA SÉCURITÉ!
LES COMPOSANTS IDENTIFIÉS P AR UNE MARQ UE 0 SUR
LES DIAGRAMMES SCHÉMATIQUES ET LA LISTE DES
PIÈCES SONT CRITIQUES POUR LA SÉCURITÉ DE
FONCTIONNEMENT. NE REMPLACER CES COM- POSANTS
QUE PAR DES PIÈCES SONY DONT LES NUMÉROS SONT
DONNÉS DANS CE MANUEL OU D ANS LES SUPPLÉMENTS
PUBLIÉS PAR SONY.
2
To Exposed Metal
Parts on Set
AC
0.15 µF
1.5 k
Ω
voltmete
(0.75 V)
Earth Ground
Fig. A. Using an AC voltmeter to check AC leakage.
Page 3
Self-diagnosis Function
(
When letters/numbers appear in the
display)
When the self-diagnosis function is activated to
prevent the system from malfunctioning, a 5character service number (e.g., C 13 50) with a
combination of a letter and 4 digits appears on
the TV screen and the front panel display. In this
case, check the following table.
C:13:50
HCD-X10
First 3
character s of
the service
number
C 13 The disc is dirty.
C 31 The disc is not inserted correctly.
E XX
(xx is a number)
Cause and/or corrective action
,Clean the disc with a soft cloth.
,Restart the system, then re-insert
the disc correctly.
To prevent a malfunction, the
system has performed the selfdiagnosis function.
,Contact your nearest Sony
dealer or local authorized Sony
service facility and giv e the 5character service number.
Example: E 61 10
When displaying the version
number on the screen
When you turn on the system, the version
number [VER.X.XX] (X is a number) may
appear on the TV screen. Although this is not a
malfunction and for Sony service use only,
normal system operation will not be possible.
Turn off the system, and then turn on the sy stem
again to operate.
VER.X.XX
3
Page 4
HCD-X10
TABLE OF CONTENTS
1. SERVICING NOTES ............................................... 5
2. GENERAL ................................................................... 9
3. DISASSEMBLY
3-1. Disassembly Flow ........................................................... 11
3-2. Panel (Bowl) Assy ........................................................... 11
3-3. Optical Pick-up Block
(KHM-310CAA or KHM-313CAA)............................... 12
3-4. Top Block ........................................................................ 13
3-5. Top Panel ......................................................................... 13
3-6. MAIN Board.................................................................... 14
3-7. D IN-001 Board, D IN-002 Board................................... 15
3-8. P-AMP Board .................................................................. 15
3-9. DVD Mechanism Deck (CDM85-DVBU102) ................ 16
3-10. Loading Assy ................................................................... 17
3-11. Belt .................................................................................. 17
4. TEST MODE.............................................................. 18
5. ELECTRICAL ADJUSTMENTS ......................... 23
6. DIAGRAMS
6-1. Block Diagram – DVD SERVO Section – ...................... 25
6-2. Block Diagram
– PANEL, HDMI, DMPORT Section – .......................... 26
6-3. Block Diagram – AUDIO INPUT Section – ................... 27
6-4. Block Diagram – DSP Section – ..................................... 28
6-5. Block Diagram – AMP Section – .................................... 29
6-6. Block Diagram – VIDEO Section – ................................ 30
6-7. Block Diagram – POWER SUPPLY Section –............... 31
6-8. Schematic Diagram – MAIN Section (1/11) –................ 33
6-9. Schematic Diagram – MAIN Section (2/11) –................ 34
6-10. Schematic Diagram – MAIN Section (3/11) – ................ 35
6-11. Schematic Diagram – MAIN Section (4/11) – ................ 36
6-12. Schematic Diagram – MAIN Section (5/11) – ................ 37
6-13. Schematic Diagram – MAIN Section (6/11) – ................ 38
6-14. Schematic Diagram – MAIN Section (7/11) – ................ 39
6-15. Schematic Diagram – MAIN Section (8/11) – ................ 40
6-16. Schematic Diagram – MAIN Section (9/11) – ................ 41
6-17. Schematic Diagram – MAIN Section (10/11) – .............. 42
6-18. Schematic Diagram – MAIN Section (11/11) – .............. 43
6-19. Printed Wiring Board
– MAIN Section (1/2) (TYPE-11) –................................ 44
6-20. Printed Wiring Boards
– MAIN Section (2/2) (TYPE-11) –................................ 45
6-21. Printed Wiring Board
– MAIN Section (1/2) (TYPE-12) –................................ 46
6-22. Printed Wiring Boards
– MAIN Section (2/2) (TYPE-12) –................................ 47
6-23. Printed Wiring Board – AV-001 Board
(Component Side) (US and Canadian models) – ............ 48
6-24. Printed Wiring Board – AV-001 Board
(Conductor Side) (US and Canadian models) – .............. 49
6-25. Schematic Diagram – AV-001 Board (1/2)
(US and Canadian models) –........................................... 50
6-26. Schematic Diagram – AV-001 Board (2/2)
(US and Canadian models) –........................................... 51
6-27. Printed Wiring Board – AV-002 Board
(Component Side) (AEP and UK models) – ................... 52
6-28. Printed Wiring Board – AV-002 Board
(Conductor Side) (AEP and UK models) – ..................... 53
6-29. Schematic Diagram – AV-002 Board (1/2)
(AEP and UK models) –.................................................. 54
6-30. Schematic Diagram – AV-002 Board (2/2)
(AEP and UK models) –.................................................. 55
6-31. Printed Wiring Board – MIC-002 Board
(AEP and UK models) –.................................................. 56
6-32. Schematic Diagram – MIC-002 Board
(AEP and UK models) –.................................................. 56
6-33. Printed Wiring Board – P-SW Board – ........................... 57
6-34. Schematic Diagram – P-SW Board – .............................. 57
6-35. Printed Wiring Board – D IN-001 Board
(US and Canadian models) –........................................... 58
6-36. Schematic Diagram – D IN-001 Board
(US and Canadian models) –........................................... 59
6-37. Printed Wiring Board – D IN-002 Board
(AEP and UK models) –.................................................. 60
6-38. Schematic Diagram – D IN-002 Board
(AEP and UK models) –.................................................. 61
6-39. Printed Wiring Board – DISPLAY Board – .................... 62
6-40. Schematic Diagram – DISPLAY Board – ....................... 63
6-41. Printed Wiring Board
– P-AMP Board (Component Side) –.............................. 64
6-42. Printed Wiring Board
– P-AMP Board (Conductor Side) – ............................... 65
6-43. Schematic Diagram – P-AMP Board (1/5) –................... 66
6-44. Schematic Diagram – P-AMP Board (2/5) –................... 67
6-45. Schematic Diagram – P-AMP Board (3/5) –................... 68
6-46. Schematic Diagram – P-AMP Board (4/5) –................... 69
6-47. Schematic Diagram – P-AMP Board (5/5) –................... 70
7. EXPLODED VIEWS
7-1. Panel (Bowl) Section ....................................................... 96
7-2. Top Panel Section ............................................................ 97
7-3. Main Section.................................................................... 98
7-4. Chassis Section................................................................ 99
7-5. DVD Mechanism Deck Section
(CDM85-DVBU102)...................................................... 100
8. ELECTRICAL PARTS LIST............................... 101
4
Page 5
SECTION 1
ANTENNA
TV
DMPORT
SPEAKER
A.CAL
MIC
AM
VIDEO
OUT
75 COAXIAL
S VIDEO
MONITOR OUT
VIDEO IN
COMPONENT VIDEO OUT
VIDEOAUDIO
R
Y
21
PB/
C
B
PR/
C
R
L
SAT/CABLE IN
SAT/
CABLE
TV
VIDEO
VIDEO
DIGITAL IN
AUDIO
R
COAXIAL
COAXIALOPTICAL OPTICAL
IMPEDANCE USE 4
L
AUDIO
IN
RL
FM
PART No.
– Back Panel –
SERVICING NOTES
HCD-X10
NOTES ON HANDLING THE OPTICAL PICK-UP
BLOCK OR BASE UNIT
The laser diode in the optical pick-up block may suffer electrostatic
break-down because of the potential difference generated by the
charged electrostatic load, etc. on clothing and the human body.
During repair, pay attention to electrostatic break-down and also
use the procedure in the printed matter which is included in the
repair parts.
The flexible board is easily damaged and should be handled with
care.
NOTES ON LASER DIODE EMISSION CHECK
The laser beam on this model is concentrated so as to be focused on
the disc reflective surface by the objective lens in the optical pickup block. Therefore, when checking the laser diode emission,
observe from more than 30 cm away from the objective lens.
UNLEADED SOLDER
Boards requiring use of unleaded solder are printed with the leadfree mark (LF) indicating the solder contains no lead.
(Caution: Some printed circuit boards may not come printed with
the lead free mark due to their particular size)
: LEAD FREE MARK
Unleaded solder has the following characteristics.
• Unleaded solder melts at a temperature about 40 °C higher
than ordinary solder.
Ordinary soldering irons can be used but the iron tip has to be
applied to the solder joint for a slightly longer time.
Soldering irons using a temperature regulator should be set to
about 350 °C.
Caution: The printed pattern (copper foil) may peel away if
the heated tip is applied for too long, so be careful!
• Strong viscosity
Unleaded solder is more viscou-s (sticky, less prone to flow)
than ordinary solder so use caution not to let solder bridges
occur such as on IC pins, etc.
• Usable with ordinary solder
It is best to use only unleaded solder but unleaded solder may
also be added to ordinary solder.
NOTE OF REPLACING THE EEPROM (IC1104 and
IC1703) ON THE MAIN BOARD
EEPROM (IC1104 and IC1703) on the MAIN board cannot
exchange with single. When EEPROM (IC1104 and IC1703) on
the MAIN board is damaged, exchange the entire mounted board.
MODEL IDENTIFICATION
MODEL PART No.
US and Canadian models 3-095-030-0[]
AEP and UK models 3-095-031-0[]
HOW TO IDENTIFY OPTICAL PICK-UP BLOCK
Optical Pick-up Block used for this set has it of two kinds.
Please change a part after distinguishing Optical Pick-up Block by
referring to figure below.
Procedure:
1) Remove the panel (bowl) assy.
2) Remove the cover (bottom).
Note: Refer to DISASSEMBLY 3-2, 3-3.
KHM-310CAA
or
KHM-313CAA
RELEASING THE TRAY LOCK
The disc tray lock function for the antitheft of an demonstration
disc in the store is equipped.
Releasing Procedure :
1. Press the I/1 button to turn on the system.
2. Press the [FUNCTION] button on the remote commander to
select “DVD”.
3. Touch the x and Z sensors and press the I/1 button on the
set simultaneously and hold down until “UNLOCKED” displayed on the fluorescent indicator tube (around 5 seconds).
Note: When “LOCKED” is displayed, the tray lock is not released by turning
power on/off with the I/1 button.
RELEASING THE DEMO PLAY LOCK
Releasing Procedure :
1. Press the I/1 button to turn on the system.
2. Press the [FUNCTION] button on the remote commander to
select “DVD”.
3. Touch the x and N sensors on the set simultaneously and
hold down until “DEMO OFF” displayed on the fluorescent
indicator tube (around 5 seconds).
– bottom side –
5
Page 6
HCD-X10
About This Manual
•The instructions in this manual describe the
controls on the remote. You can also use the
controls on the unit if they have the same or
similar names as those on the remote.
•“DVD” may be used as a general term for
DVD VIDEOs, DVD+RWs/DVD+Rs, and
DVD-RWs/DVD-Rs.
•The following symbols are used in this
manual.
Symbol Meaning
Functions available for DVD
VIDEOs, DVD-Rs/DVD-RWs in
video mode, and DVD+Rs/
DVD+RWs
Functions available for DVD-Rs/
DVD-RWs in VR (Video
Recording) mode
Functions available for VIDEO
CDs (including Super VCDs or CDRs/CD-RWs in VIDEO CD format
or Super VCD format)
Functions available for Super Audio
CDs
Functions available for music CDs
or CD-Rs/CD-RWs in music CD
format
Functions available for DATA C Ds
(CD-ROMs/CD-Rs/CD-RWs)
containing MP3
JPEG image files, and DivX
video files
Functions available for DATA
DVDs (DVD-ROMs/DVD-Rs/
DVD-RWs/DVD+Rs/DVD+RWs)
containing MP3
JPEG image files, and DivX
video files
1)
MP3 (MPEG1 Audio Layer 3) is a standard format
defined by ISO/MPEG which compresses audio data.
2)
DivX® is a video file compression technology,
developed by DivX, Inc.
3)
DivX, DivX Certified, and associated logos are
trademarks of DivX, Inc. and are used under license.
1)
audio tracks,
1)
audio tracks,
2)3)
2)3)
This System Can Play the
Following Discs
Format of
discs
DVD VIDEO
DVD-RW/
DVD-R
DVD+RW/
DVD+R
Super Audio
CD
(except for a
multi-channel
playback area)
VIDEO CD
(Ver. 1.1 and
2.0 discs)/
Audio CD
Disc logo
CD-RW/CD-R
data)
(audio
(MP3 files)
(JPEG files)
“DVD+RW,” “DVD-RW,” “DVD+R,”
“DVD VIDEO,” and the “CD” logos are trademarks.
Note about CDs/DVDs
The system can play CD-ROMs/CD-Rs/CDRWs recorded in the following formats:
–audio CD format
–VIDEO CD format
–MP3 audio tracks, JPEG image files, and
DivX video files of format conforming t o ISO
9660 Level 1/Level 2, or its extended format,
Joliet
The system can play DVD-ROMs/DVD+RWs/
DVD-RWs/DVD+Rs/DVD-Rs recorded in the
following formats:
–MP3 audio tracks, JPEG image files and
DivX video files of format conforming to
UDF (Universal Disk Format)
Example of discs that the
system cannot play
The system cannot play the following discs:
•CD-ROMs recorded in PHOTO CD format
•Data part of CD-Extras
• DVD Audios
• DATA DVDs that do not contain MP3 audio
tracks, JPEG image files, or DivX video files
• DVD-RAMs
Also, the system cannot play the following
discs:
•A DVD VIDEO with a different region code
•A disc that has a non-standard shape (e.g.,
card, heart)
•A disc with paper or stickers on it
•A disc that has the adhesive of cellophane tape
or a sticker still left on it
Notes about CD-R/CD-RW/DVD-R/
DVD-RW/DVD+R/DVD+RW
In some cases, CD-R/CD-RW/DVD-R/DVDRW/DVD+R/DVD+RW cannot be played on
this system due to the recording quality or
physical condition of the disc, or the
characteristics of the recording device and
authoring software.
The disc will not play if it has not been correctly
finalized. For more information, see the
operating instructions for the recording device.
Note that some playback functions may not
work with some DVD+Rs/DVD+RWs, even if
they have been correctly finalized. In this case,
view the disc by normal playback. Also some
DATA CDs/DATA DVDs created in Packet
Write format cannot be played.
Music discs encoded with
copyright protection
technologies
This product is designed to play back discs that
conform to the Compact Disc (CD) standard.
Recently, various music discs encoded with
copyright protection technologies are marketed
by some record companies. Please be aware that
among those discs, there are some that do not
conform to the CD standard and may not be
playable by this product.
Note on DualDiscs
A DualDisc is a two sided disc product which
mates DVD recorded material on one side with
digital audio material on the other side.
However, since the audio material side does not
conform to the Compact Disc (CD) standard,
playback on this product is not guaranteed.
About Multi Session CD
•This system can play Multi Session CDs when
an MP3 audio track is contained in the first
session. Any subsequent MP3 audio tracks
recorded in later sessions can also be played
back.
•This system can play Multi Session CDs when
a JPEG image file is contained in the first
session. Any subsequent JPEG image files
recorded in later sessions can also be played
back.
• If audio tracks and images in music CD format
or VIDEO CD format are recorded in the first
session, only the first session will be played
back.
Region code
Your system has a region code printed on the
rear of the unit and will only play DVDs labeled
with the same region code.
DVD VIDEOs labeled will also play on this
ALL
system.
If you try to play any other DVD VIDEO, the
message [Playback prohibited by area
limitations.] will appear on the TV screen.
Depending on the DVD VIDEO, no region code
indication may be given even though playing the
DVD VIDEO is prohibited by area restrictions.
Note on playback operations
of DVDs and VIDEO CDs
Some playback operations of DVDs and VIDEO
CDs may be intentionally set by software
producers. Since this system plays DVDs and
VIDEO CDs according to the disc contents the
software producers designed, some playback
features may not be available. Also, refer to the
instructions supplied with the DVDs or VIDEO
CDs.
Copyrights
This product incorporates copyright protection
technology that is protected by U.S. patents and
other intellectual property rights. Use of this
copyright protection technology must be
authorized by Macrovision, and is intended for
home and other limited viewing uses only unless
otherwise authorized by Macrovision. Reverse
engineering or disassembly is prohibited.
This system incorporates with Dolby* Digital
and Dolby Pro Logic (II) adaptive matrix
surround decoder and the DTS** Digital
Surround System.
6
Page 7
HCD-X10
NOTE OF REPLA CING THE WIRE (FLAT TYPE) (11 CORE) (CN507 ON THE MAIN BOARD – CN801 ON
THE DISPLAY BOARD)
Two types exist in the MAIN board mounted in this set.
The WIRE (FLAT TYPE) (11 CORE) connected between the CN507 on the MAIN board and the CN801 on the DISPLA Y board is dif ferent
according to the type.
Replace it for the WIRE (FLAT TYPE) (11 CORE) that is sure to suit each type when you replace the WIRE (FLAT TYPE) (11 CORE).
The set is damaged when not replaced for correct the WIRE (FLAT TYPE) (11 CORE).
Note: The service parts of the MAIN board are only type-12.
When you replace the MAIN board of type-11, replace the WIRE (FLAT TYPE) (11 CORE) (CN507 on the MAIN board - CN801 on the display
board) at the same time for the one for type-12.
• Type-11/Type-12 discrimination
– MAIN Board (Component Side) –
11
CN507
1
Type-11 : 1-872-739-11
Type-12 : 1-872-739-12
• Combination
Type of MAIN board Part No. of WIRE (FLAT TYPE) (11 CORE) Remark
Type-11 1-833-128-11 WIRE (FLAT TYPE) (11 CORE) It folds according to the figure below and it uses it.
Type-12 1-828-319-11 WIRE (FLAT TYPE) (11 CORE) It uses it without folding.
For TYPE-11
30 mm
30 mm
8 mm
UL TYPE
82 mm
For TYPE-12
Position of WIRE (FLAT TYPE) (11 CORE)
MAIN board
CN507
WIRE (FLAT TYPE)
(11 CORE)
CN801
DISPLAY board
7
Page 8
HCD-X10
Note: Follow the disassembly procedure in the numerical order given.
HOW TO OPEN THE TRAY WHEN POWER SWITCH TURNS OFF
– Bottom view –
flat head screw driver
1
2
3
Open the tray.
MAIN BOARD SERVICE POSITION
• In checking the MAIN board (TYPE-12), prepare the extension jig
(Part No. J-2501-242-A: 1.00 mm Pitch, 11 cores, Length 300 mm)
AV board
DISPLAY board
Connect jig (extension cable J-2501-242-A)
DISPLAY board (CN801) and MAIN board (CN507).
Note 1: The jig (extension cable J-2501-242-A) connected between
the CN507 on the MAIN board and the CN801
on the DISPLAY board can be used only by TYPE-12.
Never use this jig in TYPE-11.
When the jig (extension cable J-2501-242-A) is used
by TYPE-11, the set is damaged.
MAIN board
insulating sheet
CD mechanism deck
wire (flat type) (24 core)
Note 2: Do not remove the wire (flat type) (24 core) (CN1102).
If you remove the wire (flat type) (24 core) (CN1102),
solder the bridge of optical pick-up before removing.
8
Page 9
Front panel
SECTION 2
GENERAL
5 6 7 98 q;
FUNCTION VOLUME
HCD-X10
This section is extracted from
instruction manual.
A "/1 (on/standby)
B Disc tray
C Front Panel Display
D (remote sensor)
Soft-touch buttons
E Z (open/close)
F N (play)
G x (stop)
H . /> (prev/next)
I FU NCTION
J VOLUME -/+
Rear panel (US and Canadian models)
DIGITAL IN
COAXIALLACITPOLACITPO
DMPORT
SAT/
TV
CABLE
COAXIAL
IMPEDANCE USE 4
VIDEO
SPEAKER
A TV (DIGITAL IN OPTICAL) jack
B SAT/CABLE (DIGITAL IN COAXIAL/
OPTICAL) jacks
C DMPORT1 jack
D DMPORT2 jack
E COMPONENT VIDEO OUT jacks
F HDMI OUT jack
G AM terminal
H FM 75Ω COAXIAL jack
I A.CAL MIC jack
J MONITOR OUT (S VIDEO/VIDEO) jacks
K VIDEO IN (AUDIO IN L/R, VIDEO IN)
L SAT/CABLE IN (AUDIO IN L/R, VIDEO
M TV (AUDIO IN L/R) jacks
N VIDEO (DIGITAL IN COAXIAL) jack
O SPEAKER jack
AUDIO
RL
IN
AUDIO
R
L
SAT/CABLE IN
jacks
IN) jacks
TV
VIDEO
21
COMPONENT VIDEO OUT
/
P
B
Y
C
B
R
L
VIDEO IN
OUT
ANTENNA
VIDEO
S VIDEO
MONITOR OUT
A.CAL
MIC
75 COAXIAL
AM
FM
PR/
C
R
VIDEOAUDIO
Rear panel (AEP and UK models)
DIGITAL IN
COAXIALOPTICAL OPTICAL
SAT/
TV
CABLE
IMPEDANCE USE 4
SPEAKER
A TV (DIGITAL IN OPTICAL) jack
B SAT/CABLE (DIGITAL IN COAXIAL/
OPTICAL) jacks
C DMPORT1 jack
D DMPORT2 jack
E HDMI OUT jack
F AM terminal
21
OUT
DMPORT
COMPONENT VIDEO OUT
PB /
Y
B
C
AUDIO
R
L
SAT/CABLE IN
PR /
R
C
EURO AV OUTPUT(TO TV)
VIDEO
A.CAL
MIC
75 COAXIAL
ANTENNA
AM
FM
G FM 75Ω COAXIAL jack
H A.CAL MIC jack
I T EURO AV OUTPUT (TO TV) jack
J SAT/CABLE IN (AUDIO IN L/R, VIDEO
IN) jacks
K COMPONENT VIDEO OUT jacks
L SPEAKER jack
9
Page 10
HCD-X10
Front panel display
About the indications in the front panel display
SLEEP NIGHT TUNED TITLE CHAP STEREO MONO MOVIE MUSIC NTSC
-
CD
SA
DIGITAL
REPEAT 1
PROGRESSIVE
A Lights up when the sleep timer is set.
B Lights up when the night mode is on.
C Lights up when a station is received.
(Radio only)
D Lights up when the time information of
a title or chapter appears in the front
panel display. (DVD onl y)
E St ereo/ Mon au ral effect (Rad io onl y)
F Lights up when the movie or music
mode is selected.
G Current surround format (Except for
JPEG and Super Audio CD)
H
AEP and UK models only:
Lights up when an NTSC disc is load ed
(DVD function only).
Remote control
With the cover opened.
A TV [/1 (on/standby)
B TV button/TV mode ind ica t or
C Z (OPEN/CLOSE)
D SLEEP
E Number buttons
F CLEAR
3)
-/--
G TONE
H FUNCTION
I DVD TOP MENU
J C /X/x/c, (ENTER)
K O RETURN
L . />
PRESET –/+
2) 3)
3)
3)
I Lights up when the HDMI OUT jack is
correctly connected to HDCP (highbandwidth digital content protection)
compliant device with HDMI or DVI
(digital visual interface) input.
J Cu rrent repeat mode
K Lights up when the system outputs
progressive signals (DVD function
only).
L Lights up when a disc is loaded (DVD
function only).
M Displays system’s status such as
chapter, title, or track number, time
information, radio frequency, playing
status, sound field, etc.
N Playing status (DVD function only)
O Current surround format (Except for
JPEG and Super Audio CD)
P Lights up when a Super Audio CD/CD/
DATA CD is loaded.
M
c/C STEP
N m/M
/
TUNING –/+
O REPEAT
P VOLUME +/–
Q MUTING
R AUDIO
3)
2)
S PICTURE NAVI
T MOVIE/MUSIC
U RESOLUTION
V DIREC T TUNING
W TUNER MENU
X [/1 (on/standby)
Y DISPLAY
Z TV INPUT
wj ENTER
1) 3)
wk SOUND FIELD
wl DVD MENU
e; DISPLAY
ea H (play)
TOOLS
TV MENU
3)
3)
2)
es x (stop)
ed X (pause)
ef TV CH +/–
2)
eg SUBTITLE
eh ANGLE
ej NIGHT
ek DIMMER
el SYSTEM MENU
1)
The ENTER wj button is the same function as the
(ENTER) 0 button.
2)
The 5, H, and TV CH +, and AUDIO buttons have
tactile dots. Use the tactile dots as re ferences when
operating the system.
3)
These buttons change to the TV operation buttons
when the remote is in TV mode . The remote is in TV
mode when the TV mode indicator 2 lights up by
pressing the TV button 2.
10
Page 11
5
six screws
(BVTP3
×
8)
6
panel (bowl) assy
3
two claws
4
panel (loading) assy
1
2
flat head screw driver
sheet
Note: Please spread a seat under a set
not to injure top assy.
– Bottom view –
• This set can be disassembled in the order shown below.
3-1. DISASSEMBLY FLOW
SET
3-2. PANEL (BOWL) ASSY
(Page 11)
HCD-X10
SECTION 3
DISASSEMBLY
3-4. TOP BLOCK
(Page 13)
3-5. TOP PANEL
(Page 13)
3-6. MAIN BOARD
(Page 14)
3-9. DVD MECHANISM DECK (CDM85-DVBU102)
(Page 16)
3-10. LOADING ASSY
(Page 17)
3-11. BELT
(Page 17)
Note: Follow the disassembly procedure in the numerical order given.
3-3. OPTICAL PICK-UP BLOCK
(KHM-310CAA or KHM-313CAA)
(Page 12)
3-2. PANEL (BOWL) ASSY
3-7. D IN BOARD
(Page 15)
3-8. P-AMP BOARD
(Page 15)
11
Page 12
HCD-X10
3-3. OPTICAL PICK-UP BLOCK (KHM-310CAA or KHM-313CAA)
Note:The cover (bottom) on the bottom of the set can be removed
when replacing the optical pick-up block KHM-310CAA or KHM-313CAA.
1
2
cover (bottom)
4
Lift up the holder (FFC).
5
two insulator screws
two screws
(BVTP3
×
6)
5
PRECAUTION WHEN REMOVING
GOOD OPTICAL PICK-UP BLOCK
8
Be sure to bridge here, and then disconnect the
wire (flat type) (24 core).
(optical pick-up block will be destroyed without bridging.)
On the contrary at the installation, connect the
wire (flat type) (24 core) first, and then remove the bridge.
Note: For a soldering iron, use the one with a ground wire.
two
insulator screws
7
connector
6
Lift up the
optical pick-up block.
– Bottom view –
9
optical pick-up block
(KHM-310CAA or KHM-313CAA)
3
two claws
12
Page 13
3-4. TOP BLOCK
l
2
three screws
(BVTP3
×
8)
3
top block
2
three screws
(BVTP3
HCD-X10
×
8)
3-5. TOP PANEL
1
ten screws
(BVTP3
1
wire (flat type) (15 core)
(CN101)
– Bottom view –
×
6)
2
top pane
13
Page 14
HCD-X10
3-6. MAIN BOARD
PRECAUTION WHEN REMOVING WIRE (FLAT TYPE) (24 CORE)
1
Perform work with this wire (flat type) (24 core) connected,
or make a bridge as mentioned above and then disconnect the wire (flat type) (24 core).
(Optical pick-up will be destroyed without bridging.)
On the contrary at the installation, connect the wire (flat type) (24 core) first,
and then remove the bridge.
Note: For a soldering iron, use the one with a ground wire.
(Refer to DISASSEMBLY 3-3. OPTICAL PICK-UP BLOCK (KHM-310CAA or KHM-313CAA)) (page 12)
2
wire (flat type) (5 core)
(CN1301)
5
wire (flat type) (17 core)
(CN506)
9
connector
(CN515)
8
connector
(CN505)
7
connector
(CN412)
6
connector (CN1300)
4
wire (flat type) (11 core)
(CN507)
Note: The WIRE (FLA T TYPE) (11 CORE) connected with CN507
on the MAIN board is different by the type of the MAIN board.
Replace it for the WIRE (FLAT TYPE) (11 CORE) that is
sure to suit each type when you replace the WIRE (FLAT
TYPE) (11 CORE).
Refer to “NO TE OF REPLA CING THE WIRE (FLA T TYPE)
(11 CORE) (CN507 ON THE MAIN BOARD – CN801 ON
THE DISPLAY BOARD)” in servicing notes for the
combination of the WIRE (FLAT TYPE) (11 CORE).
qf
six screws
(BVTP3
×
6)
qk
MAIN board
qg
two clamps (L35)
qd
wire (flat type)
(17 core: US, Canadian model)
(CN501)/
19 core: AEP UK model) (CN503)
qh
screw
(BVTT3
×
8)
3
wire (flat type) (21 core)
(CN514)
qj
ground plate (main)
0
two screws
(BVTP3
×
6)
qa
ground plate (ITA)
14
qs
wire (flat type)
(17 core: US, Canadian model(CN502)/
15 core: AEP UK model) (CN504)
Page 15
3-7. D IN-001 BOARD, D IN-002 BOARD
1
connector
(CN2001: US, Canadian model/)
CH2001: AEP, UK model)
3
D IN-001 board: US, Canadian model/
D IN-002 board: AEP, UK model
2
four screws
(BVTP3
×
8)
HCD-X10
3-8. P-AMP BOARD
8
2
3
radiation sheet
(5 ch AMP)
4
wire (flat type) (21 core)
(CN3006)
seven screws
(BVTP3
×
qa
P-AMP board
6)
1
two screws
(BVTP3
heat sink (AMP)
×
10)
9
two screws
6
connector (CN900)
7
0
connector
(CN3001)
screw
(BVTP3
×
8)
5
connector
(CN515)
15
Page 16
HCD-X10
)
3-9. DVD MECHANISM DECK (CDM85-DVBU102)
1
two rivets
3
cover (CDM)
2
two claws
6
three screws
(BVTP3
5
bracket (main
×
8)
4
screw
(BVTP3
7
DVD mechanism deck
(CDM85-DVBU102)
×
6)
16
Page 17
3-10. LOADING ASSY
5
two insulators
4
7
loading assy
two insulator screws
1
two claws
5
4
two insulator screws
6
optical pick-up block
(KHM-310CAA or 313CAA)
HCD-X10
two insulators
3-11. BELT
3
5
claw
chuck cam
6
belt
2
FFC holder
3
wire (flat type) (24 core)
4
tray
2
3
claw
1
Slide the chuck cam in the direction
of arrow to releae the chucking.
17
Page 18
HCD-X10
SECTION 4
TEST MODE
1. TEST MODES OTHER THAN THE TEST MENU
These are executable test mode even if not entering the test menu.
1-1. Cold Reset
The cold reset clears data except DVD data stored in the RAM to
initial conditions. Execute this mode when returning the set to the
customers.
Procedure:
1. In the standby state, the I/1 button on the set is pressed for
5 seconds or more.
2. The messages “MEMORY CLR” and “PUSH POWER” are
displayed on the fluorescent indicator tube.
3. When the I/1 button is pressed in the state of step 2, the
messages “CLEARING” t “CLEARED!” are displayed, then
becomes standby states.
1-2. DVD Version View
Procedure:
1. Connect the set with the TV screen.
2. In the standby state, Press the button in order of the [ DISPLAY]
t [ENTER] t I/1 on the remote commander, the DVD
version appears on the TV screen.
3. To release from this mode, press the I/1 button.
1-3. AM Step Change (US and Canadian models)
The step interval of AM channels can be toggled between 9 kHz
and 10 kHz.
Procedure:
1. Press the I/1 button to turn the power on.
2. Press the [FUNCTION] button on the remote commander to
select the “AM”.
3. Press the [TUNER MENU] button on the remote commander
and press the M m button on the remote commander to
select the “ AM step?”, and press the 3 button on the remote
commander.
4. The message “10k t 9k” or “9k t 10k” appears on the
fluorescent indicator tube.
5. Press the 3 button on the remote commander, and the AM
channel step is changed.
1-4. Disc Tray Lock
This mode let you lock the disc tray. When this mode is activated,
the disc tray will not eject when the Z sensor is touched. The
message “LOCKED” will be displayed on the fluorescent indicator
tube.
Procedure:
1. Press the I/1 button to turn the power on.
2. Press the [FUNCTION] button on the remote commander to
select the “DVD”.
3. Touch the x and Z sensors and press the I/1 button on
the set simultaneously and hold down until “LOCKED” or
“UNLOCKED” displayed on the fluorescent indicator tube
(around 5 seconds).
1-5. Demo Disc Play
Mode to prevent theft of the demonstration disc.
Setting Procedure:
It automatically enters the mode when the demonstration disc is
inserted.
Releasing Procedure:
1. Press the I/1 button to turn the power on.
2. Press the [FUNCTION] button on the remote commander to
select the “DVD”.
3. Touch the x and N sensor on the set simultaneously and
hold down until “DEMO OFF” displayed on the fluorescent
indicator tube (around 5 seconds).
2. TEST MODES IN THE TEST MENU
These are the test modes done in the test menu.
Setting method of the test menu:
1. Press th I/1 button to turn the power on.
2. Press the button in order of the [CLEAR] t [ENTER] t [0]
t [1] t [0] t [ANGLE] on the remote commander. (Make
the interval when each button is pressed within two seconds.)
3. The message “TEST MENU” appears on the fluorescent indicator tube and enter the test menu.
2-1. Panel Test
Procedure:
1. Enter the test menu.
2. Press the M m button on the remote commander to select the
“P ANEL TEST”, and press the [ENTER] button on the remote
commander.
3. LEDs (except N and Z ) and all segments in fluorescent
indicator tube are lighted up. And N LED and half seg-
ments in fluorescent indicator tube are lighted up, Z LED
and others half segments in fluorescent indicator tube are lighted up, then LEDs (except N and Z ) and all segments in
fluorescent indicator tube are lighted up. This operation is
repeated.
4. When all segments in fluorescent indicator tube are lighted up in the state of step 3, press the [VOLUME +] button
on the remote commander and model information is displayed on the fluorescent indicator tube.
Each time the [VOLUME +] button on the remote commander
is pressed, the display changes from destination information,
MC version, SYS version, UI version, DVD version, ST version, T A version, DSP version, TM version, CLA version, CEC
version in this order, and returns to the model information
display.
Each time the [VOLUME ---] button on the remote commander
is pressed, the version and date are switched.
5. In the state of step 3, press the [FUNCTION] button on the
remote commander and “K 0” is displayed on the fluorescent
indicator tube.
“K 0” value increases whenev er a b utton on the set is pressed
or a sensor is touched. However, once a button has been
pressed, it is no longer taken into account.
The I/1 button on the set is pressed and all sensors are
touched, “OK” and “K 9” are alternately displayed on the fluorescent indicator tube.
6. To release from this mode, press the I/1 button.
2-2. Amp Test
Procedure:
1. Enter the test menu.
2. Press the M m button on the remote commander to select
the “AMP TEST”, and press the [ENTER] button on the re-
mote commander.
3. The message “MEASURE” appears on the fluorescent indicator tube and enter the amp test mode.
4. Press the [SUBTITLE] button on the remote commander, the
message “VACS ON” or “VACS OFF” appears on the fluorescent indicator tube and thus the VACS on/off are changed.
5. To release from this mode, press the I/1 button.
18
Page 19
HCD-X10
2-3. Cold Reset
The cold reset clears data except DVD data stored in the RAM to
initial conditions. Execute this mode when returning the set to the
customers.
Procedure:
1. Enter the test menu.
2. Press the M m button on the remote commander to select the
“COLD RESET”, and press the [ENTER] button on the re-
mote commander.
3. The message “COLD RESET.” appears on the fluorescent indicator tube, then becomes standby states.
2-4. Product Out
Procedure:
1. Enter the test menu.
2. Press the M m button on the remote commander to select the
“PRODUCTOUT”, and press the [ENTER] button on the re-
mote commander.
3. After the “STANDBY” blinking display finishes, the
message“MECHA LOCK” appears on the fluorescent indicator tube and the ship mode is set.
4. To release from this mode, pull out the power code.
2-5. DVD Service
This mode describes details in “3. DVD SERVICE MODE” (page
20).
2-6. Tuner Factory Preset
Not used for the servicing.
Press the I/1 button if having entered this mode.
2-7. Digital Media Port Test
Procedure:
1. Connect the DMPORT check jig (P/N: J-2501-309-A) with
the DMPORT 1 jack (CN409) on the MAIN board.
2. Press the I/1 button to turn the power on.
3. Confirm that both LEDs of the DMPORT check jig lights.
(Confirmation the power supply line.)
4. Press the [FUNCTION] button on the remote commander to
select the “DMPORT 1”.
5. Enter the test menu.
6. Press the M m button on the remote commander to select the
“DMPORT CHK”, and press the [ENTER] button on the remote commander.
7. The message “DMPORT OK.” appears on the fluorescent indicator tube and enter the digital media port test mode. (Confirmation of communication line)
When “NO DETECT . ” and “U AR T .T O” are displayed on the
fluorescent indicator tube, confirm the connection of the
DMPORT check jig, and enter the mode again.
Each time the > button on the remote commander is
pressed, the connect check and adaptor version check are
switched.
Press the . button on the remote commander, connected
confirmation of the DMPORT check jig is done again.
8. To a pinjack of the DMPORT check jig input information relevant to audio signal (sine-wave 1.0V rms) and composite video signal (white 100% 1.0Vp-p, color bar, etc.).
9. Confirm the output of speakers and monitor TV. (Confirmation of analog signal)
10. To release from this mode, press the I/1 button.
AV-001 board J400
(US, Canadian models)
AV-002 board CN400
(AEP, UK models)
set
P-AMP board
CN3005
color
pattern
generator
AF
oscillator
J001
MAIN board
CN409
DMPORT
check jig
(Part No.:
J-2501-309-A)
2-8. T est Tone
Not used for the servicing.
Press the I/1 button if having entered this mode.
2-9. V A CS Display
Not used for the servicing.
Press the I/1 button if having entered this mode.
2-10. V A CS On/off
Not used for the servicing.
Press the I/1 button if having entered this mode.
2-11. DSP Halt Mode
Not used for the servicing.
Press the I/1 button if having entered this mode.
2-12. DSP RAM Read/write
Not used for the servicing.
Press the I/1 button if having entered this mode.
2-13. DSP Status Display
Not used for the servicing.
Press the I/1 button if having entered this mode.
2-14. A.CAL Test Disp
Not used for the servicing.
Press the I/1 button if having entered this mode.
2-15. Demo Disc Play
Not used for the servicing.
Press the I/1 button if having entered this mode.
2-16. DVD Debug
Not used for the servicing.
Press the I/1 button if having entered this mode.
2-17. Sircs Disable
Not used for the servicing.
Press the I/1 button if having entered this mode.
2-18. DMPORT Device Test
Not used for the servicing.
Press the I/1 button if having entered this mode.
TV
monitor
FL/FR
speaker
19
Page 20
HCD-X10
3. DVD SERVICE MODE
3-1. DVD Service Mode General Description
This mode let you make diagnosis and adjustment easily by using
the remote commander and the TV screen. The instructions,
diagnostic results, etc. are given on the on-screen display.
Be sure to execute the IOP measurement when a base unit is replaced.
3-2. Entering DVD Service Mode
Procedure:
1. Press the I/1 button to turn the power on.
2. Press the [FUNCTION] button on the remote commander to
select the “DVD”.
3. Press the button in order of the [CLEAR] t [ENTER] t [0]
t [1] t [0] t [ANGLE] t [0] t [6] on the remote
commander. (Make the interval when each button is pressed
within two seconds.)
4. The message “SERVICE IN” appears on the fluorescent
indicator tube and top menu of the Remocon Diagnosis Menu
appears on the on-screen display on the TV screen as follows.
The model name, IF-con version and Syscon version are
displayed at the bottom of the on-screen display.
Remocon Diagnosis Menu
0. External Chip Check
1. Servo Parameter Check
2. Drive Manual Operation
3. Emergency History
4. Version Information
Model Name :xxxx_xx
IF-con:Ver.xx.xx(xxxx)
Syscon:Ver.x.xxx
5. To execute each function, press its number by using numeric
button on the remote commander.
6. To release from this mode, press the I/1 button.
3-3. Executing IOP Measurement
In order to execute IOP measurement, the following standard
procedures must be followed.
Procedure:
1. From the top menu of Remocon Diagnosis Menu, select “2
Drive Manual Operation” by pressing the [2] button on the
remote commander. The following screen appears on the onscreen display
Drive Manual Operation
1. Servo Control
2. Track/Layer Jump
3. Manual Adjustment
4. Tray Aging Mode
5. MIRR time Adjust
0. Return to Top Menu
Manual Adjust
1. Track Balance Adjust:
2. Track Gain Adjust:
3. Focus Balance Adjust:
4. Focus Gain Adjust:
5. Eq Boost Adjust:
6. Iop:
7. TRV. Level:
8. S curve(FE) Level:
9. RFL(PI) Level:
0. MIRR Time:
V v Change Value
[RETURN]Return to previous menu
3. Select “6. Iop:” by pressing [6] button on the remote
commander.
4. Wait until a hexadecimal number appear in the on-screen
display as below.
Manual Adjust
1. Track Balance Adjust:
2. Track Gain Adjust:
3. Focus Balance Adjust:
4. Focus Gain Adjust:
5. Eq Boost Adjust:
6. Iop: XX:
7. TRV. Level:
8. S curve(FE) Level:
9. RFL(PI) Level:
0. MIRR Time:
V v Change Value
[RETURN]Return to previous menu
5. Conv ert data from hexadecimal to decimal by using conv ersion
table.
6. If the value is smaller than 93 (decimal), then it is OK. Ho wever
if the value is higher than 93, then BU (base unit) is defective
and need to be change.
7. Press the O RETURN button on the remote commander to
return to previous menu.
8. Press the [0] button on the remote commander to return to the
top menu of Remocon Diagnosis Menu.
9. Press the I/1 button to turn off the system.
3-4. Checking Emergency History
To check the emergency history, please follow the following
procedure.
Procedure:
1. From the top menu of Remocon Diagnosis Menu, select “3.
Emergency History” by pressing the [3] button on the remote
commander. The following screen appears on the on-screen
display.
Emg. History Check
Laser Hours CD 999h 59min
DVD 999h 59min
01. 01 05 04 04 00 92 46 00
00 00 00 00 00 00 23 45
2. Select “3. Manual Adjustment” by pressing the [3] button on
the remote commander. The following screen appears on the
on-screen display.
20
02. 02 02 01 01 00 A9 4B 00
00 00 00 00 00 00 23 45
[Next]Next page [Prev]Prev page
[0]Return to Top Menu
Page 21
HCD-X10
2. You can check the total time when the laser is turned on during
playback of DVD and CD from the above menu. The maximum
time, which can be displayed are 999h 59min.
3. You can check the error code of latest 10 emergency history
from the above menu. To view the previous or next page of
emergency history, press the . or > button on the
remote commander. The error code consists of three kinds of
error codes.
A. Error code
Example of Error code
01. 01 05 04 04 00 92 46 00
00 00 00 00 00 00 23 45
The meaning of error code is as below:
01: Communication error (No reply from syscon)
02: Syscon hung up
03: Power OFF request when syscon hung up
19: Thermal shutdown
24: MoveSledHome error
25: Mechanical move error (5 changer)
26: Mechanical move stack error
30: DC motor adjustment error
31: DPD offset adjustment error
32: TE balance adjustment error
33. TE sensor adjustment error
34. TE loop gain adjustment error
35. FE loop gain adjustment error
36. Bad jitter after adjustment
40. Focus NG
42. Focus layer jump NG
51: Spindle stop error
52. Open kick spindle error
60: Focus on error
61: Seek fail error
62: Read Q data/ID error
70: Lead in data read fail
71: TOC read time out (CD)
80: Can’t buffering
81: Unknown media type
B. Parameter of error code
This is the detail of error code.
Example of Error code
To Clear the Laser Hour
Press the [ DISPLAY] button on the remote commander and then
press the [CLEAR] button on the remote commander. The data for
both CD and DVD data are reset.
Emg. History Check
Laser Hours CD 0h 0min
DVD 0h 0min
01. 01 05 04 04 00 92 46 00
00 00 00 00 00 00 23 45
02. 02 02 01 01 00 A9 4B 00
00 00 00 00 00 00 23 45
[Next]Next page [Prev]Prev page
[0]Return to Top Menu
To Clear the Emergency History
Press the [DVD TOP MENU] button on the remote commander and
then press the [CLEAR] button on the remote commander. The error
code for all emergency history would be reset.
Emg. History Check
Laser Hours CD 999h 59min
DVD 999h 59min
01. 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
02. 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
[Next]Next page [Prev]Prev page
[0]Return to Top Menu
To Execute the Initialize Setup Data
Procedure:
1. Press the [DVD MENU] button on the remote commander and
then press the [CLEAR] button on the remote commander. The
following screen appears on the on-screen display.
Emg. History Check
Laser Hours CD 999h 59min
DVD 999h 59min
01. 01 05 04 04 00 92 46 00
00 00 00 00 00 00 23 45
C. Time of error code
This is the laser time when an error occurred.
Example of Error code
01. 01 05 04 04 00 92 46 00
00 00 00 00 00 00 23 45
Initialize setup data...
[Next]Next page [Prev]Prev page
[0]Return to Top Menu
2. The screen after a while returns to former display.
To Return to the Top Menu of Remocon Diagnosis
Menu
Press the [0] button on the remote commander.
21
Page 22
HCD-X10
5. CHECKING VERSION INFORMATION
To check the version information, please follow the following
procedure.
Procedure:
1. From the top menu of Remocon Diagnosis Menu, select “4.
Version Information” by pressing the [4] button on the remote
commander. The following screen appears on the on-screen
display.
Version information
Firm(Main): Ver. X.XXXX
Firm(Sub): XX.XX
RISC: XXXXXX
8032: XXXXXX
Audio DSP: XX.XX.XX.XX
Servo DSP: XX.XX.XX.XX
SubCPU: Ver. X.XX (XXXX)
[0]Return to Top Menu
2. T o return to the top men u of Remocon Diagnosis Menu, press
the [0] on the remote commander.
22
Page 23
SECTION 5
signal
generator
set
ELECTRICAL ADJUSTMENTS
HCD-X10
DVD SECTION
When the base unit is replaced, perform the adjustment and the
measurement as shown below in this order.
EXECUTING IOP MEASUREMENT (See page 20)
TUNER SECTION
FM TUNE LEVEL CHECK
Procedure:
1. Turn on the set.
2. Input the following signal from signal generator to FM antenna
input directly.
Carrier frequency: A = 87.5 MHz, B = 98 MHz, C = 108 MHz
Deviation : 75 kHz
Modulation : 1 kHz
ANT input : 35 dBu (EMF)
Note: Use 75 ohm coaxial cable to connect signal generator and the set.
You cannot use video cable for checking.
Use signal generator whose output impedance is 75 ohm.
3. Set to FM tuner function and tune A, B and C signals.
4. Confirm “TUNED” is lit on the display for A, B and C signals.
When the selected station signal is received in good condition,
“TUNED” is displayed.
23
Page 24
HCD-X10
MEMO
24
Page 25
SECTION 6
DIAGRAMS
6-1. BLOCK DIAGRAM – DVD SERVO Section –
HCD-X10
OPTICAL PICK-UP
BLOCK
KHM-310CAA
OR
KHM-313CAA
VR (780)
M301
DISC TRAY
OPEN/CLOSE
RF
VOA/A
VOB/B
VOC/C
VOD/D
PD
MSW
CD ON
SWITCH
Q1100-1
DVD ON
SWITCH
Q1100-2
SPINDLE/SLED/LOADING MOTOR DRIVE
FCS+
FCS– 37
TRK+ 35
TRK– 34
SL+ 29
SL– 30
SP+ 27
SP– 28
M
AUTOMATIC POWER
CONTROL (FOR CD)
Q1102-1
AUTOMATIC POWER
CONTROL (FOR DVD)
Q1102-2
Q1101
FOCUS/TRACKING COIL DRIVE,
IC1300
36
46
47
25
24
FOCUS
COIL DRIVE
TRACKING
COIL DRIVE
SLED
MOTOR DRIVE
SPINDLE
MOTOR DRIVE
BUFFER
LOADING
MOTOR DRIVE
EEPROM
IC1104
1
4
10
13
45
16
17
15
19
PS
21
20
22
SPDIF
225
6
DVDRFIP
8
MA
MB
9
MC
10
MD
11
DVDA2
DVDB3
DVDC4
DVDD5
TNI18VOE/E+G
TPI19VOF/F+H
V2O29VC
MDI120
MDI221
LDO123LD (780)
22LD (650)
LDO2
103
5
6
SDASDA
102
SCLSCL
EEWPWF
517
MSW
48VR (650)
LINYSW
136LIMIT
FOO42
TRO41
FMO38
DMO37
SPFG47
186
FWD
REW185
TROPENPWM
39
MUTE123MUTE123 184
MUTEMUTE4 183
TSD_MTSD-M 181
RF AMP, SERVO DSP,
MPEG DECODER
IC1105
ASDATA0 217
ASDATA1 218
ASDATA2 219
ASDATA4 222
ABCK 214
ALRCK 213
ACLK 215
SMPTE_Y (0)
SMPTE_Y (1)
SMPTE_Y (2)
SMPTE_Y (3)
SMPTE_Y (4)
SMPTE_Y (5)
SMPTE_Y (6)
SMPTE_Y (7)
VCLK
SMBSY
VSYN
SMSDI
SMSDO
SMSCK
XSMCS
YUV1
YUV2
YUV3
YUV4
YUV5
YUV6
ABCK
ALRCK
ASDATA0
ASDATA1
ASDATA2
ASDATA4
177
176
174
172
171
170
169
168
178
207
205
209
210
208
211
194
196
198
200
202
203
YUV0
YUV1
YUV2
YUV3
YUV4
YUV5
YUV6
YUV7
VCLK
HSYNC
VSYNC
SMSDI
SMSDO
SMSCK
XSMCS
DQ0 – DQ15
2, 4, 5, 7, 8, 10, 11, 13, 42,
44, 45, 47, 48, 50, 51, 53
125 – 123, 121, 120, 118, 117,
115, 135, 133 – 128, 126
RD0 – RD15
SPDIF
ACLK
SD-RAM
IC1109
A0 – A11
23 – 26,
29 – 34, 22, 35
147, 149 – 151, 166 – 164,
162, 160, 159, 146, 158
RA0 – RA11
SPDIF
ASDATA0
ABCK
ALRCK
ACLK
20
143
BA0 BA0
DIGITAL AUDIO BUS
B
(Page 28)
HDMI BUS
C
(Page 26)
• SIGNAL PATH
: CD PLAY
: DVD PLAY
: AUDIO
: VIDEO
(US, Canadian)
Y
C
V
Y/G
CB/B
CR/R
D
(Page 30)
21
38
37
15
39
18
17
19
16
145
156
157
113
137
140
139
142
138
BA1 BA1
DRCLK CLK
CKE CLKE
DQM0 LDQM
DQM1 UDQM
RAS RAS
CAS CAS
RCS CS
RWE WE
(AEP, UK)
ADSDO
WIDE
187
179
RGB_SEL
WIDE
HCD-X10
A
(Page 26)
TX27M
REGO2
REGO1
41
31
32
BUFFER
REGULATOR
40
8
IOPMON40
RF+3.3V
XTALI
229
OSC BUFFER
IC1107
X1100
27MHz
HD0 – HD7
81 – 84,
86 – 88, 91
29, 31, 33, 35,
38, 40, 42, 44
DQ0 – DQ7
HA0 – HA21
93, 78, 53 – 59, 75, 74,
72 – 67, 92, 60, 61, 76, 89
45, 25 – 18, 8 – 1,
48, 17, 16, 9, 10
A-1, A0 – A20
FLASH ROM
IC1100
XROMCSCE
77
26
XRDOE
XWRWE
79
66
28
11
CLOSE DETECT
12
RESET
S001-2
DISC TRAY
CKSW
49
OCSW
50
S001-1
DISC TRAY
OPEN DETECT
101
88
31
DVD_SID IFSOI
CDM_OPEN_SW
98
32
DVD_SOD IFSDO
99
33
DVD_SCO IFSCK
100
37
114
34
DVD XIFCS XIFCS
110
38
DVD_XIFBUSY XIF5SY
105
MTK RST XSYSRST
XRST
SWITCHING
IC1108
SYSTEM CONTROLLER
IC501 (1/7)
XRST
E
(Page 26)
2525
Page 26
HCD-X10
6-2. BLOCK DIAGRAM – PANEL, HDMI, DMPORT Section –
FLUORESCENT INDICATOR
TUBE DRIVER
IC821
KEYIN1
KEYIN2
CLK
MODE
LED_PWM1
LED_PWM2
LED_PWM3
P_CONT_TS
KEY0
KEY INT
SIRCS_IN
C822, R828
86FL_D_OUT
85FL_CLK
87FL_CS
84FL_RST
79
80
82
CS
81
83
26
24
28
78
97
74
4
OSC
58 OSC0
59 OSC1
DAT
63
62 CLK
61 XCS
60 XRST
T-SENSOR
BOARD
REMOTE CONTROL
RECEIVER
IC861
S1 – S35
AD2, AD1,
41 – 50 3 – 39
G2 – G11
G1
40
S100
I/1
GRID DRIVE
Q821
FL801
FLUORESCENT
INDICATOR
TUBE
C
(Page 25)
HDMI BUS
ASDATA0
ASDATA1
ASDATA2
ASDATA4
SPDIF
YUV0
YUV1
YUV2
YUV3
YUV4
YUV5
YUV6
YUV7
HDMI TRANSMITTER
AD076
AD1
75
AD2
74
AD3
73
72
SPDIF
Y0
13
Y1
14
Y2
15
Y3
16
Y4
17
Y5
18
Y6
19
Y7
20
IC1701
TCKN
HTPLG 40
• R-ch is omitted due to same as L-ch.
• SIGNAL PATH
: AUDIO
: VIDEO
CN1701
HDMI OUT
(DVD ONLY)
7
52TX0P
51TX0N
55TX1P
54TX1N
58TX2P
57TX2N
49TCKP
48
LEVEL SHIFT
IC1704
TMDS DATA0 +
9
TMDS DATA0 –
4
TMDS DATA1 +
6
TMDS DATA1 –
1
TMDS DATA2 +
3
TMDS DATA2 –
10
TMDS CLOCK +
12
TMDS CLOCK –
19
HPD
CEC_TX_OUT
CEC_RX_IN
CLINK_SEL
CLINK_TX_OUT
CLINK_RX_IN
CLINK_DET
SYSTEM CONTROLLER
IC501 (2/7)
DMPORT1_L
H
F
DMPORT2_L
DMPORT1_VIDEO
DMPORT2_VIDEO
(Page 27)
(Page 30)
X1700
10MHz
15
X014X1
CEC DATA
SWITCH
Q1702 – 1705
LEVEL SHIFT
Q1701
LEVEL SHIFT
Q1700
+5V
REGULATOR
IC1706
58
P35/AN05
XRST
22
3
DMPORT SELECTOR
IC412
Q405
48
35
36
89
1
1G
4G13
2G
4
3G10
1Y 3
1A2
4A 12
4Y11
2Y 6
2A5
3A 9
3Y8
LINE AMP
IC403
CN409
DMPORT 1
5
6
7
13
14
17
RXD
TXD
DET
L+
R+R-CH
VIDEO
LINE AMP
IC440
CN410
DMPORT 2
5
6
7
13
14
17
RXD
TXD
DET
L+
R+R-CH
VIDEO
SMSDI
31
SDO
SMSDO
30
SDI
SMSCK
32
SCK
XSMCS
23
22
XSMCS
ACLK
ABCK
ALRCK
VCLK
HSYNC
VSYNC
VSYNC
VSYNC
EEPROM
IC1703
SDA5SCL6WP
49
50
HDCP-SDA
7
51
HDCP-SCL
HDCP-_WP
77
ACL
78
ABCK
79
ALRCK
VCK11
HSYNC39
VSYNC
38
MSD
35
TRAP2TRAP2
SSCKSCK
SSOSDA
MSCK
31
21
22
34
63
62
HDMI CONTROLLER
IC1702
242761
CLK 26
RST
INTXTXINT
25
59
XTXRST
PWDNXPWDN
24
60
41
40
SDA0
SW +8V
SCL0
13
CEC
16
SDA
15
SCL
18
+5V POWER
TX27M
A
(Page 25)
21
XRST
E
(Page 25)
HCD-X10
2626
Page 27
6-3. BLOCK DIAGRAM – AUDIO INPUT Section –
(US, Canadian)
SAT/CABLE
AUDIO IN
AUDIO IN
AUDIO IN
A.CAL MIC
TV
VIDEO
J300
ECM-AC2
L
R
L
R
J401 (1/3)
L
R
J301
R-CH
R-CH
R-CH
MIC AMP
IC300
AUDIO SELECTOR
X3
11
X2
15
X1
14
X0
12
IC301
9B10
HCD-X10
AUDIO SELECTOR
IC441
R-CH
LINE AMP
IC401
ADAC_L
DIGITAL_IN
J
(Page 28)
K
(Page 28)
DMPORT1_L
H
(Page 26)
13
X
DIGITAL IN
A
LINE AMP
IC302
OPTICAL
SAT/CABLE
OPTICAL
TV
COAXIAL
SAT/CABLE
COAXIAL
VIDEO
OPTICAL
RECEIVER
IC2003
OPTICAL
RECEIVER
IC2004
J2001
WAVE
SHAPER
IC2001
AUDIO SELECTOR
D4
15
13 D6
2D2
4D0
14 D5
3D1
IC2002
A
11
10B9
5
Y
C
DIGITAL INPUT
S2001
SELECTOR
OPTICAL
COAXIAL
D +3.3V
DMPORT2_L
Q411
11
15 X2
12 X0
14 X1
13X3X
MUTING
Q407
MUTING
CONTROL
Q408, 409
A9B
10
Q410
(AEP, UK)
G
(Page 30)
SAT/CABLE
AUDIO IN
J300
A.CAL MIC
ECM-AC2
SCART_L
J400 (1/3)
L
R
MIC DETECT
SWITCH
Q302
R-CH
MIC DETECT
SWITCH
Q310
MIC AMP
IC300
AUDIO SELECTOR
IC301
15
X2
X
X3
11
X0
12
A
9B10
Q301
Q300
13
DIGITAL IN
Q301
Q300
LINE AMP
IC302
OPTICAL
SAT/CABLE
OPTICAL
TV
COAXIAL
SAT/CABLE
OPTICAL
RECEIVER
IC2003
OPTICAL
RECEIVER
IC2004
J2002
WAVE
SHAPER
IC2001
AUDIO SELECTOR
D4
15
13 D6
2D2
4D0
IC2002
A
11
10B9
5
Y
C
DIGITAL INPUT
S2001
SELECTOR
OPTICAL
COAXIAL
D +3.3V
53
52
51
50
49
A_SEL4
A_SEL3
A_SEL2
A_SEL1
A_SEL0
15
X501
5MHz
Xin
13
Xout
HCD-X10
• R-ch is omitted due to same as L-ch.
• SIGNAL PATH
: AUDIO
: TUNER (FM/AM)
: MIC INPUT
FM 75
COAXIAL
AM
Ω
2727
ANTENNA
(AEP, UK)
TUNER (FM/AM)
TUNER_L
FM ANT
TUNER_R
AM ANT
RDS-DATA
RDS-CLK
CLK
TUNED
MICSW
54
SYSTEM CONTROLLER
IC501 (3/7)
R-CH
DI
DO
CE
59 ST_DI
57 ST_DO
56 ST_CLK
58 ST_CE
55 TUNED
76 RDS DATA
75 RDS CLK
Page 28
HCD-X10
6-4. BLOCK DIAGRAM – DSP Section –
ADAC_L
J
(Page 27)
DIGITAL AUDIO INTERFACE RECEIVER
IC702
R-CH
A/D CONVERTER
IC772
13 VinL
14 VinR
8BCK
7LRCK
6SCKI
• R-ch is omitted due to same as L-ch.
9DOUT
• SIGNAL PATH
: AUDIO
DSP
IC1
K
(Page 27)
B
(Page 25)
DIGITAL_IN
DIGITAL AUDIO BUS
SPDIF
4DIN1 (I)
3DIN0 (I)
DO (O)DIR_HDOUT
35 36
SDIN 8
XIN (I)
XOUT (O)
DI (I)DAMP_SCDT/DIR_DIN
CL (I)DAMP_SHIFT/DIR_CLK
CE (I)DIR_HCE
CSFLAG (O)DIR_CSFLAG
ERROR (O)DIR_ERR
25
34
17
XSTATE (O)DIR_XSTATE
38
37
XMODE (I)DIR_RST
48
24AUDIO– (O)
16DATA (O)
14BCK (O)
15LRCK (O)
13CKOUT (O)
22
21
12.288MHz
X701
ASDATA0
ABCK
ALRCK
ACLK
DATA SELECTOR
IC704
21A
31B
5
2A
62B
11
3A
10 3B
14
4A
13
4B
A/B
1
97 NOUAUDIO∗
64DPSOA
65DPSOB
78 DPSIA
82 DPSIE
41Y
72Y
124Y
79 DPSIB
89 DPBCK
88 DPLRCK93Y
94 DPFSCK
70DPSOC
87DPDVBCK
BUFFER
IC3001
BCK
MCK
SCDT
SHIFT
D1
D2
D3
AMP BUS
L
(Page 29)
D FLIP-FLOP
IC4
D
Q
4 1
CLK
2
86DPDVLRCK
16 DIR_ERR
100
1
2
21
19
27
40
23
18
DIR_ZERO
SYSTEM CONTROLLER
IC501 (4/7)
39
SACD_SEL
6DSP_MISO 126 M ISO
5DSP_MOSI 127 MOSI
7DSP_SPICLK 125 SPICLK
68DSP_INTR 15 INT_REQ
10DSP_SPIDS 122 SPIDS∗
11DSP_RESET 121 RESET∗
142
25MHz
CLKIN
X1
XTAL
143
Q1
SWITCHING
IC6
6
2B
2A
5
1
1A
1B
2
3
2Y
7
1Y
LRCK
HCD-X10
2828
Page 29
6-5. BLOCK DIAGRAM – AMP Section –
AMP BUS
L
(Page 28)
D1
MCK
BCK
LRCK
SCDT
SHIFT
LAT1
INIT
SOFTMUTE
OVF1
STREAM PROCESSOR
IC3006
31 11DATA
36 XFSIIN
30 BCK
29 LRCK
21 SCDT
22 SCSHIFT
23 SCLATCH
27 INIT
19 SOFTMUTE
24 OVFFLAGR
25 OVFFLAGL
OUTL1
HCD-X10
• SIGNAL PATH
CN3005
DIGITAL POWER AMP
IC3011
OUT_B
/OTW
3
OUT_A
/OTW
3
28 – 30
25 – 27
25 – 27
28 – 30
L.P.F.
L.P.F.
L.P.F.
L.P.F.
OVER LOAD
DETECT
Q3015, 3017
OVER LOAD
DETECT
Q3007, 3009
6 PWM_A OUT_A
9OUTL2
6OUTR1
4OUTR2
48XFSOIN
37FSOCKO
38FSOI
14XFSOOUT
OSC BUFFER
IC3003
X3001
49.1MHz
14
PWM_B
/RESET4/SD
5
DIGITAL POWER AMP
IC3012
14 PWM_B OUT_B
6
PWM_A
/RESET4/SD
5
SPEAKER
IMPEDANCE
USE 4Ω
FL+
FL
–
FR+
FR
–
7
8
15
14
: AUDIO
SYSTEM CONTROLLER
IC501 (5/7)
DAMP LATCH1
DAMP LATCH2
DAMP LATCH3
DAMP INIT
DAMP SOFT MUTE
OVERFLOW1
OVERFLOW2
DRIVE_RST (EN)
DRIVE_OCP (DIAG)
DC_DETECT
63
65
66
60
SOFTMUTE
61
69
70
67
20
25
LAT1
LAT2
LAT3
INIT
OVF1
OVF2
D3
MCK
BCK
LRCK
SCDT
SHIFT
LAT3
INIT
SOFTMUTE
OVF2
D2
MCK
BCK
LRCK
SCDT
SHIFT
LAT2
INIT
SOFTMUTE
OVF1
STREAM PROCESSOR
IC3005
31 11DATA
36 XFSIIN
30 BCK
29 LRCK
21 SCDT
22 SCSHIFT
23 SCLATCH
27 INIT
19 SOFTMUTE
24 OVFFLAGR
STREAM PROCESSOR
IC3004
31 11DATA
36 XFSIIN
30 BCK
29 LRCK
21 SCDT
22 SCSHIFT
23 SCLATCH
27 INIT
19 SOFTMUTE
24 OVFFLAGR
25 OVFFLAGL
OUTL1
OUTL1
DIGITAL POWER AMP
IC3009
D3015
SW2+
SW2
SW1+
SW1
SL+
SL
SR+
SR
3
–
4
5
–
6
10
–
9
1
–
2
M3000
M
(FAN)
OUT_A
/OTW
3
OUT_A
/OTW
3
OUT_B
/OTW
3
OUT_A
/OTW
3
25 – 27
28 – 30
25 – 27
28 – 30
28 – 30
25 – 27
25 – 27
28 – 30
L.P.F.
L.P.F.
L.P.F.
L.P.F.
L.P.F.
L.P.F.
L.P.F.
L.P.F.
OVER LOAD
DETECT
Q3014, 3016
OVER LOAD
DETECT
Q3006, 3008
OVER LOAD
DETECT
Q3010, 3011
OVER LOAD
DETECT
Q3012, 3013
E +13V
FAN MOTOR
DRIVE
Q3005
B+ SWITCH
(FOR FAN MOTOR)
Q3001 – 3003
14 PWM_B OUT_B
PWM_A
9OUTL2
48XFSOIN
38FSOI
14XFSOOUT
9OUTL2
6OUTR1
4OUTR2
48XFSOIN
38FSOI
6
/RESET
/SD
5
4
DIGITAL POWER AMP
IC3010
14 PWM_B OUT_B
PWM_A
6
/RESET
/SD
5
4
DIGITAL POWER AMP
IC3007
6 PWM_A OUT_A
14
PWM_B
/RESET4/SD
5
DIGITAL POWER AMP
IC3008
14 PWM_B OUT_B
6
PWM_A
/RESET4/SD
5
DC DETECT
Q3004
(Page 31)
SD_PCONT
M
HCD-X10
2929
Page 30
HCD-X10
6-6. BLOCK DIAGRAM – VIDEO Section –
J401 (2/3)
VIDEO
VIDEO IN
VIDEO
SELECT
VIDEO
SWITCH
IC605
IC400
V_SEL0
V_SEL1
V_SEL3
Q603
J402
SAT/CABLE
VIDEO IN
VIDEO
SWITCH
IC604
WIDE
V_SEL2
V_SEL3
VIDEO AMP, 75 Ω DRIVER
IC401
VOUT
YOUT
6
11
13
15
4
8
CVBS IN
CIN
YIN
CYIN
CbIN
CrIN
C OUT
S-DC OUT
CYOUT
CbOUT
CrOUT
MUTE114MUTE2
S1
5
2
30, 29
27, 26
24, 23
21, 20
18, 17
(US, Canadian) (AEP, UK)
CVBS OUT
G OUT
B OUT
R/C OUT
A (L) IN
A (R) IN
SCART_L
CN400
T EURO
AV OUTPUT
(TO TV)
19
11
7
15
8
16
6
2
G
(Page 27)
J400 (2/3)
SAT/CABLE
VIDEO IN
VIDEO
SELECT
IC400
VIDEO
J400
MONITOR
32
31
CY
S VIDEO
(DVD ONLY)
Y
J401 (3/3)
COMPONENT
PB/CB
VIDEO OUT
(DVD ONLY)
PR/CR
OUT
VIDEO AMP, 75 Ω DRIVER
IC401
11
CYIN
CYOUT
CbIN
CrIN
MUTE2
14
CbOUT
CrOUT
MUTE1
5
13
15
V_SEL0
V_SEL1
24, 23
21, 20
18, 17
S1
2
WIDE
SWITCH
Q401
WIDE
+
DVD
SELECT
Q400, 402
VIDEO AMP, 75 Ω DRIVER
6
CVBS IN
11
CYIN
13
CbIN
15
CrIN
MUTE1
5
RGB SELECT
Q403, 404,
Q405
TV_SEL
V_SEL2
Y
PB/CB
PR/CR
IC403
VOUT
CYOUT
CbOUT
CrOUT
MUTE2
14
VIDEO
MUTING
Q406, 407
RGB_SEL
V_SEL3
J400 (3/3)
COMPONENT
VIDEO OUT
(DVD ONLY)
30, 29
24, 23
21, 20
18, 17
FUNCTION SW
BLANKING OUT
R-CH
D
(Page
25)
F
(Page
26)
C
Y
Y/G
CB/B
CR/R
WIDE
RGB_SEL
V
DMPORT1_VIDEO
DMPORT2_VIDEO
VIDEO
SELECT
IC442
WIDE
RGB_SEL
V_SEL0
V_SEL4
V_SEL0
V_SEL1
V_SEL041V_SEL142V_SEL243V_SEL344V_SEL445TV_SEL
SYSTEM CONTROLLER
(AEP, UK)
V_SEL2
V_SEL3
V_SEL4
IC501 (6/7)
(AEP, UK)
TV_SEL
47
VIDEO
MUTING
Q408
WIDE
V_SEL2
V_SEL3
RGB_SEL
• R-ch is omitted due to same as L-ch.
• SIGNAL PATH
: AUDIO
: VIDEO
HCD-X10
3030
Page 31
6-7. BLOCK DIAGRAM – POWER SUPPLY Section –
SW +8V
+8V
REGULATOR
IC903
RECT
D908
T900
SUB POWER
TRANSFORMER
HCD-X10
SYSTEM CONTROLLER
IC501 (7/7)
P_CONT3
P_CONT2
P_CONT1
AC_CUT
RESET
P_CONT4
E +6V
VIDEO +5V
(US, Canadian)
VIDEO +5V
(AEP, UK)
D +5V
VFL
PANEL +3.3V
SW +5V
RF +3.3V
HDMI +3.3V
A +5V
E +13V
AMP +12V
AMP +3.3V
A +12V
A +9V
E +4V
DSP +1.2V
D +3.3V
HDMI +1.8V
AMP +1.8V
E +3.3V
BUP +3.3V
FL
FL
RECT
D801 – 804
REGULATOR
REGULATOR
REGULATOR
FOR FLUORESCENT
INDICATOR TUBE
SERVO DSP +3.3V
77
72
SERVO DSP +1.8V
71
73
RESET
12
SWITCH
Q503
91
RESET SIGNAL
GENERATOR
IC503
T801
INVERTER TRANSFORMER
+3.3V
IC1102
+3.3V
IC1101
+3.3V
IC1707
OSC
Q801
+3.3V
REGULATOR
IC502
RIPPLE
FILTER
Q504
+3.3V
REGULATOR
IC3015
+9V
REGULATOR
IC443
+1.2V
REGULATOR
IC5
+1.8V
REGULATOR
IC1705
+1.8V
REGULATOR
IC1103
+1.8V
REGULATOR
IC3002
+5V
REGULATOR
IC402
+5V
REGULATOR
IC402
+5V
REGULATOR
IC602
+5V
REGULATOR
IC504
+12V
REGULATOR
IC3014
+12V
REGULATOR
IC601
+2.6V
REGULATOR
IC9
+3.3V
REGULATOR
IC603
D502
D504
RECT
D912
RECT
D910
RECT
D916
SHUNT
REGULATOR
IC902
ISOLATOR
PH902
D906
+30V
+5V
+5V
REGULATOR
IC3013
REGULATOR
MAIN POWER
ON/OFF SWITCH
D923
SHUNT
IC904
Q902
RECT
D921
SD_PCONT
T901
MAIN POWER
TRANSFORMER
ISOLATOR
PH900
ISOLATOR
PH901
RIPPLE FILTER
Q900
(Page 29)
M
D918, 919
D917
RECT
D909
D914, 915
D913
B+ SWICH
D903 D911
LINE FILTER
L901
Q901
TH900
POWER CONTROL
IC901
1 OCP/SYNC
4VCC
3D
5FB/OLP
POWER CONTROL
IC900
4 VCC
6FB/OLP
8 START_UP
1 DRAIN
LINE FILTER
L900
F900
(AC IN)
HCD-X10
3131
Page 32
HCD-X10
• Note for Printed Wiring Boards and Schematic Diagrams
Note on Printed Wiring Board:
• X : parts extracted from the component side.
• Y : parts extracted from the conductor side.
f
•
• : Pattern from the side which enables seeing.
(The other layers' patterns are not indicated.)
Caution:
Pattern face side: Parts on the pattern face side seen from
(Conductor Side) the pattern face are indicated.
Parts face side: P arts on the parts face side seen from
(Component Side) the parts face are indicated.
Caution:
Pattern face side: Parts on the pattern face side seen from
(Side B) the pattern face are indicated.
Parts face side: P arts on the parts face side seen from
(Side A) the parts face are indicated.
• MAIN board is multi-layer printed board.
• Indication of transistor
: internal component.
However, the patterns of intermediate layers have not been
included in diagrams.
C
Q
B
E
B
These are omitted.
Q
CE
These are omitted.
Note on Schematic Diagram:
• All capacitors are in µF unless otherwise noted. (p: pF)
50 WV or less are not indicated except for electrolytics
and tantalums.
• All resistors are in Ω and 1/
specified.
f : internal component.
•
• 2 : nonflammable resistor.
• C : panel designation.
Note:
The components identified by mark 0 or dotted
line with mark 0 are criti-
cal for safety.
Replace only with part
number specified.
• A : B+ Line.
• B : B– Line.
• Voltages and waveforms are dc with respect to ground
under no-signal (detuned) conditions.
no mark : TUNER (FM/AM)
(): DVD PLAY
∗ : Impossible to measure
• Voltages are tak en with a VOM (Input impedance 10 MΩ).
Voltage variations may be noted due to normal production tolerances.
• Waveforms are taken with a oscilloscope.
Voltage variations may be noted due to normal production tolerances.
• Circled numbers refer to waveforms.
• Signal path.
J : CD PLAY
c : DVD PLAY
F : AUDIO
E : VIDEO
f : TUNER (FM/AM)
N : MIC INPUT
• Abbreviation
CND : Canadian model
4
W or less unless otherwise
Note:
Les composants identifiés par
une marque 0 sont critiques
pour la sécurité.
Ne les remplacer que par une
pièce portant le numéro
spécifié.
• Circuit Boards Location
MAIN board
T-SENSOR board
P-SW board
tuner (FM/AM)
MIC-002 board (AEP, UK)
AV-001 board: US, Canadian/
AV-002 board: AEP, UK
D IN-001 board: US, Canadian/
D IN-002 board: AEP, UK
MS-203 board
P-AMP board
DISPLAY board
HCD-X10
3232
Page 33
HCD-X10
6-8. SCHEMATIC DIAGRAM – MAIN Section (1/11) –
A
MAIN BOARD
(1/11)
B
CLINK_DET
C
D
CS
CLK
MODE
FL_RST TV_SEL
FL_CLK
FL_DATA
E
F
G
FL_CS
OCSW1SIG
KEY0
DIR_DO
R504
R638
47k
R506
C502
C507
R542
10k
H
R617
R665
R666
R503
10k
(US,CND)
1k
0.1C501
0.1
0.1
C503
0.1
SCDT_DIR_SDATA
SHIFT_DIR_CLK
100
100
100
100
4.7k (AEP,UK)
R505
22k (US,CND)
R510
R512
C508
R514
10k
10k
0.1
10k
R509
R511
R513
I
• See page 71 for Waveforms. • See page 74 for IC Block Diagrams. • See page 82 for IC Pin Function Description.
5
EN
LAT3
P_CONT3
KEYIN2
P_CONT4
0.2 3.2
81
1.9
82
2.6
83
3.2
84
3.2
85
0
86
3.2
87
0
88
3.2
89
0
90
3.2
91
0
92
0
100
100
100
93
3.4
94
3.4
95
96
3.4
97
98
3.3
99
3.2
100
KEYIN1
1000p
1000p
C617
C616
100
R676
R639
100
003.303.3
KEYIN1
KEYIN2
0
P_CONT_TS
(3.3)
P_CONT3
DAMP_SCDT/DIR_DIN
3.4
CS
CLK
MODE
FL_RST
FL_CLK
FL_D_OUT
FL_CS
CDM_OPEN_SW
CLINK_DET
DSP_MASTER
P_CONT4
DESTINATION
MODEL
KEY2
KEY1
Vss
KEY0
Vref
Vcc
DIR_HDOUT
123456789101112131415161718192021222324252627282930
0
C517
0.1
12
R519
10k
SIRCS
AC_CUT
RDS_CLK
RDS_DATA
10k
R525 10k
R523
1k
R501
0
3.4
3.4
KEY INT
RDS CLK
RDS DATA
DAMP_SHIFT/DIR_CLK
CEC_RX_IN
SIRCS_IN
DSP_MOSI
DSP_MISO
DSP_SPICLK
3.2
3.2
3.3
10k
10k
R522
R524
P_CONT1
P_CONT2
3.3
3.3
3.3
3.303.2
AC_CUT
P_CONT1
P_CONT2
OVERFLOW1
OVERFLOW2
(TYPE-11) (TYPE-12)
BYTE
CNVss
DSP_SPIDS
DSP_RESET
RESET
0
3.3
3.2
3.2
10k
0.1
C515
R527
OVF1
OVF2
LAT2
DSP_INT
3.3
3.3
DSP_INTR
DAMP LATCH3
DRIVE_RST(EN)
IC501
SYSTEM CONTROLLER
IC501
M30626MJP-A13FPU0
Xout
Vss
Xin
1.6
1.3
R536
0
X501
5MHz
78
SOFT_MUTE
3.3
3.2
Vcc
DAMP LATCH1
DAMP SOFT MUTE
DIR_ZERO
DIR_CSFLAG
DRIVE_OCP(DIAG)
3.3
3.2
100
R517
1000p
C506
NS_INIT
3.3
DAMP INIT
DIR_HCE
0
ST_DI
ST_CE
0
ST_DI
CEC_TX_OUT
(0)
ST_DO
47p
C618
000
ST_CE
DIR_RST
3.2
3.3
LED_PWM2
TUNED
ST_CLK
3.2
ST_DO
ST_CLK
LED_PWM2
DC_DETECT
3.2
3.4
10kR584
LED_PWM1
LAT1
3.3
Vss
DAMP LATCH2
Vcc
NMI
3.3
1.2
R539
10k
MICSW
0.1
C519
1kR550
000
TUNED
MICSW
LED_PWM1
DIR_ERR
3.2
A_SEL4
A_SEL4
CLINK_TX_OUT
LED_PWM3
3.2
LED_PWM3
A_SEL2
A_SEL3
3.2
515253545556575859606162636465666768697071727374757677787980
A_SEL2
A_SEL3
A_SEL1
A_SEL0
CLINK_SEL
TV_SEL
DSP_SF_CE
V_SEL4
V_SEL3
V_SEL2
V_SEL1
V_SEL0
DIR_XSTATE
SACD_SEL
MTK RST
DVD XIFCS
CLINK_RX_IN
DVD_XIFBUSY
DVD_SCO
DVD_SOD
DVD_SID
I2C_CLK
I2C_
3.4
3.4
4.7k
4.7k
R552
R549
R547 0
R582 0
R534
10k
R554
10k
DATA
C518
0.1
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
R557
47k
3.2
MA2J1110GLS0
9643
3.2
0
(3.2)
0
(3.2)
(3.2)
(3.2)
(3.2)
(3.2)
3.2
0
(3.2)
(3.2)
0
3.2
(2.4)
(3.2)
(0)
(*)
Q503
2SC3052EF-T1-LEF
RESET SWITCH
0
D501
R561
100k
R562
47k
1012
R558
47k
R644
R563
10k
10k
C520
0.22
C521
0.01
R556
47k
SACD_SEL
A_SEL1
A_SEL0
CLINK_SEL
V_SEL4
V_SEL3
V_SEL2
CLINK_TX_OUT
C523
0.1
V_SEL1
V_SEL0
XSYSRST
XIFCS
CLINK_RX_IN
XIFBSY1
IFSCK1
IFSDO1
3.4
4
RESET SIGNAL GENERATOR
10kR515
(TYPE-11) (TYPE-12)
IFSDI1
1
2
IC503
IC B/D
OUT
VDD
GND NC
IC503
PST3635NR
12
P_CONT_DSP
0R591
P_CONT4
P_CONT3
P_CONT2 P_CONT2
3.6
5
Cd
43
C522
0.22
10k
R593
10k
R595
P_CONT4
P_CONT3
P_CONT1P_CONT1
1311
14
(Page 36)
21
DSP_DIR
B
E
F
SW+3.3V
D
C
BUP+3.3V
E+3.3V
E+4V
D-GND
BOARD
22
MAIN
BOARD
(3/11)
(Page 35)
MAIN
(4/11)
23
MAIN
BOARD
(2/11)
(Page 34)
HCD-X10
CEC_RX_IN
SHIFT_DIR_CLK
SCDT_DIR_SDATA
DSP_MOSI
DSP_SPICLK
CNVSS
DSP_RESET
DSP_SPIDS
RESET
CSFLAG
DIR_ZERO
DIAG
DIR_HCE
DIR_RST
CEC_TX_OUT
DC_DETECT
DIR_XSTATE
AC_CUT
J
3333
Page 34
HCD-X10
6-9. SCHEMATIC DIAGRAM – MAIN Section (2/11) –
(2/11)MAIN BOARD
A
C
D
B
23
MAIN
BOARD
(1/11)
(Page 33)
E+4V
D-GND
BUP+3.3V
E+3.3V
SW+3.3V
C
C514
0.01
D
IC504
TK11150CSCL-G
IC B/D
E
F
IC504
+5V REGULATOR
C524
47
16V
C525
0.1
(TYPE-11)
D-GND
A+12V
24
MAIN
BOARD
G
(3/11)
(Page 35)
E+3.3V
A+5V
E+6V
SW+3.3V
5V
(TYPE-12)
H
I
J
• See page 74 for IC Block Diagrams.
5
P_CONT2
(TYPE-11) (TYPE-12)
IC B/D IC B/D IC B/D
IC601
+12V REGULATOR
IC601
SI-3010KM-TL
VC
VIN
GND
VOUT
ADJ
13.1
R576
12345
3.2
C603
0.1
C604
47
25V
1k
1.35
321
NPVOUT
GND
1
12.1
3.26.3
CONT
R632
VIN
54
0.47
C529
R633
100k
10k
FB506
R634
C602
C601
C532
10k
0.1
100
16V
0.1
R635
10
D601
MAZ8200GMLS0
P_CONT1
R651
R643
16V
VOUT
47
IC603
R658
10k
C610
0.1
C609
100
16V
C533
FB503
GND
4
FB507
0.1
FL503
FL501
EMI
G
EMI
1012
VIN
C611
C612
16V
12
R579
C538
R601
R602
R603
R604
R605
R606
RB601
RB602
RB603
FB508
FB505
100
100
100
100
22
22
22
22
22
47
1000p
P_CONT4
DC_DETECT
OVF2
OVF1
DIAG
P_CONT1
EN
LAT3
LAT2
LAT1
SHIFT_DIR_CLK
SCDT_DIR_SDATA
SOFT_MUTE
NS_INIT
R659
1k
VC
12345
3.2
0.1
100
C528
100
16V
C531
0.1
R636 0
FB510
G
R502
3.3k
R587
10k
78
P_CONT3
9643
(TYPE-11) (TYPE-12) (TYPE-11) (TYPE-12)
IC602
+5V REGULATOR
IC602
SI-3010KM-TL
R655
MA2J1110GLS0
MA2J1110GLS0
R577
47k
1k
C535
47
16V
4.9
S
11.9
0
1k
R652
1k
R653
47k
C614
1000
6.3V
C615
1000
6.3V
VOUT
ADJ
5
1
R654
12k
C606
0.1
C605
100
16V
C526
100
16V
GND
VC
VIN
12345
6.3
3.2
C607
0.1
C608
100
16V
D502
D504
Q504
RSR025N03TL
RIPPLE FILTER
4.9
IC603
+3.3V REGULATOR
SI-3010KM-TL
ADJ
1
3.3
R656
1k
R657
22k
FL502
EMI
G
FB501
C536
FB502 FB509
CN514
21P
CN515
13P
1311
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
13
12
11
10
9
8
7
6
5
4
3
2
1
P_CONT4
DC-DETECT
OVF2
OVF1
SD
DRIVER_RESET
DAMP_LAT3
DAMP_LAT2
DAMP_LAT1
SHIFT
SCDT
SOFT_MUTE
INT
AMP_D3
AMP_D2
AMP_D1
DSP_LRCK
DSP_BCK
GND
MCK
GND
AMP_MCKO
AMP_BCKO
AMP_LRCKO
AMP_D1
AMP_D2
AMP_D3
E+4V
6V_LED
GND_LED
GND_LED
6V_LED
D+3.3V
AGND
E+4V
E4_D+3.3V
E6V
E6_D+5V
DGND
E13V
DGND
M+8V
MGND
D-GND
SW+3.3V
MTR-GND
SW+8V
SW+5V
D-GND
SW+3.3V
SW+8V
E3.3V
SW+3.3V
SW+5V
D-GND
SW+3.3V
SW+5V
D-GND
SW+3.3V
47
BOARD
(10/11)
25
55
28
MAIN
BOARD
(9/11)
54
52
MAIN
14
P-AMP
BOARD
(1/5)
CN3006
(Page 66)
(Page 36)
26
MAIN
BOARD
(5/11)
27
MAIN
BOARD
(3/11)
P-AMP
BOARD
(Page 70)
(Page 39)
BOARD
BOARD
(11/11)
MAIN
BOARD
(8/11)
(Page
L
MAIN
BOARD
(4/11)
K
(5/5)
CN902
MAIN
(7/11)
(Page
MAIN
42)
(Page
37)
(Page
35)
41)
(Page
43)
(Page
40)
HCD-X10
3434
Page 35
HCD-X10
6-10. SCHEMATIC DIAGRAM – MAIN Section (3/11) –
43
MAIN BOARD (3/11)
A
RDS_CLK
TUNER-L
TUNER-R
TUNED
A_SEL0
A_SEL1
MICSW
TUNER-L
TUNER-R
TUNED
A_SEL0
A_SEL_1
MICSW
A-GND
TUNER_R
TUNER_L
A_SEL4
A_SEL3
A_SEL2
TV_SEL
RGB_SEL
V_SEL0
V_SEL1
V_SEL2
V_SEL3
V_SEL0
V_SEL1
V_SEL2
V_SEL3
RGBSEL
D-GND
AGND
AGND
AGND
AGND
AD_R
AGND
AGND
AGND
AGND
AD_R
AV_R
WIDE
VGND
VGND
WIDE
VGND
VGND
VGND
VGND
WIDE
CN503
19P
1
2
3
4
5
9V
6
7
8
9
CE
10
DI
11
CLK
12
DO
13
14
15
16
17
AD_L
18
19
CN501
17P
1
2
3
9V
4
5
6
7
CE
8
DI
9
CLK
10
D0
11
12
13
14
15
AD_L
16
17
AV_L
A9V
A12V
E_6V
CR/R
CB/B
Y/G
E6V
CR/R
CB/B
Y/G
Y/G
CB/B
CR/R
R679 0
CN504
15P
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
V
CN502
17P
1
2
3
4
5
6
7
8
9
10
11
12
13
V
14
15
C
16
17
Y
V
C
Y
(AEP,UK)
R616
R622
R677
0
0
R624
0
0
150
R629
R630
150
R631
150
R673
(AEP,UK)
RDS_DATA
B
E
AV-002
BOARD
(2/2)
CN301
C
(Page
55)
(US,CND)
D
E
B
AV-001
BOARD
(2/2)
CN301
(Page
51)
F
30
MAIN
BOARD
G
(6/11)
(Page
38)
(AEP,UK)
H
D
AV-002
BOARD
(1/2)
CN401
I
(Page
54)
(US,CND)
12V/IP_SEL
J
A
AV-001
BOARD
(1/2)
K
CN400
(Page
50)
L
12V/IP_SEL
31
MAIN
BOARD
M
(7/11)
(Page 39)
• See page 74 for IC Block Diagrams.
5
R607
100
100
R608
100
R660
R661
100
R662
100
R663
100
R664
100
R609
100
R610
100
100
R611
78
(TYPE-11) (TYPE-12)
IC B/D
IC502
+3.3V REGULATOR
IC502
TK11133CSCL-G
3.3 1.3
1
CONT
VIN
2
GND
Q603
RT1N141C-TP-1
INVERTER
IC B/D
8
7
6
54
8
7
6
54
IC B/D
NP VOUT
C623
0.1
C625
0.1
C626
0.1
C624
0.1
R615 100
0
R696
R697
C511
1000p
100R641
100R612
100R613
100R614
(TYPE-11) (US,CND)
0
(TYPE-12) (US,CND)
0
(TYPE-11) (US,CND)
C613
0.1
C621
0.1
C620
10
16V
C622
0.1
NJM2235V(TE2)
1
IN1
2
SW1
3
IN2
SW2 IN3
NJM2235V(TE2)
1
IN1
2
SW1
3
IN2
SW2
(TYPE-11)
(TYPE-12)
IC604
GND
OUT
VDD
IC605
GND
OUT
VDD
IN3
(TYPE-11) (TYPE-12)
5
4.94.9
43
IC604
VIDEO SWITCH
IC605
VIDEO SWITCH
C516
1
C509
1
C510
0.1
CEC_TX_OUT
CEC_RX_IN
IFSCK1
XIFBSY1
XIFCS
XSYSRST
IFSDO1
IFSDI1
OCSW1SIG
1012
KEY0
MODE
CLK
CS
KEYIN1
KEYIN2
P_CONT_TS
LED_PWM3
LED_PWM2
LED_PWM1
FL_RST
FL_DATA
FL_CS
FL_CLK
FL_RST
SIRCS
12
(Page 33)
22
B
MAIN
F
BOARD
E
(1/11)
D-GND
29
SW+3.3V
MAIN
OPT-IN
BOARD
A+5V
DGND
DIGITAL-IN
D3.3V
A_SEL1
A_SEL0
D-GND
A+12V
SW+3.3V
E+6V
A+5V
E+3.3V
5V
KEY0
DGND
KEYOUT3
KEYOUT2
KEYOUT1
KEYIN1
KEYIN2
6V
DGND
PCONT_TS
GND-LED
6V-LED
LED3
LED2
LED1
DGND
XRST
6V_LED
GND_LED
DGND
FL_DATA
5V
FL_CS
DGND
FL_CLK
3.3V
FL_RST
DGND
SIRCS
E3.3V
CEC_TX_OUT
CEC_RX_IN
IFSCK
XIFBSY
XIFCS
XSYSRST
IFSDO
IFSDI
D-GND
OCSW1
SW+3.3V
D-GND
A5V
V_SEL0
V_SEL4
CLINK_RX_IN
CLINK_TX_OUT
CLINK_DET
CLINK_SEL
SEL_V
V
(4/11)
24
MAIN
BOARD
(2/11)
(Page 34)
27
MAIN
BOARD
(2/11)
33
MAIN
BOARD
(11/11)
34
MAIN
BOARD
(7/11)
(Page 41)
35
MAIN
BOARD
(9/11)
(Page 34)
32
MAIN
BOARD
(6/11)
CN505
5P
1
2
CN506
CN507
3
4
5
17P
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
11P
1
2
3
4
5
6
7
8
9
10
11
100R640
R642
100
R671
100
C619
16V100
100R675
100
R674
R535
100
R533
100
R530
100
1k
R526
R548
0
R667 0
R670 0
R668 0
R669 0
R581
100
96
RDS_DATA
RDS_CLK
A_SEL1
A_SEL0
TUNED
ST_CE
ST_DI
ST_CLK
ST_DO
A_SEL0
A_SEL1
MICSW
A_SEL4
A_SEL3
A_SEL2
TV_SEL
V_SEL0
V_SEL1
V_SEL2
V_SEL3
R695
10k
C627
100
16V
L601
10uH
C628
100
16V
L602
10uH
(US,CND)
V_SEL0
V_SEL4
CLINK_RX_IN
CLINK_TX_OUT
CLINK_DET
CLINK_SEL
1311
(Page 36)
(US,CND) (AEP,UK)
F
D IN-001
BOARD
CN2001
(Page
59)
(Page 57)
H
P-SW
BOARD
CN100
(Page 63)
J
DISPLAY
BOARD
CN801
(Page 43)
(Page 39)
(Page 38)
G
D IN-002
BOARD
CN2001
(Page
61)
Note: In type-11 and type-12, the WIRE (FLA T TYPE) (11 CORE)
connected with CN507 on the MAIN board is different.
Replace it for the WIRE (FLAT TYPE) (11 CORE) that is
sure to suit each type when you replace the WIRE (FLAT
TYPE) (11 CORE).
Refer to “NO TE OF REPLACING THE WIRE (FLAT TYPE)
(11 CORE) (CN507 ON THE MAIN BOARD – CN801 ON
THE DISPLA Y BOARD)” (page 7) in servicing notes for the
combination of the WIRE (FLAT TYPE) (11 CORE).
HCD-X10
3535
Page 36
HCD-X10
6-11. SCHEMATIC DIAGRAM – MAIN Section (4/11) –
MAIN BOARD (4/11)
A
ASDATA0
ABCK
ALRCK
36
MAIN
BOARD
B
(7/11)
ACLK
(Page
39)
SPDIF
C
R719
100
R718
100
L703
D701
MA2J1110GLS0
10uH
C710
0.068
C719
L702
10uH
C718
C717
D702
0.1
C709
220
4V
R716
220
C711
0.1
2.5
2.5
3.2
14 13 12 11 10 9 8
FMT
VinL
VinR
Vref
AGND
AVcc
5
2.5
C708
0.1
0.1
C706
10
10
16V
16V
L701
10uH
MA2J1110GLS0
R786
0
MOD1
DVdd
3.2
D
E
F
G
H
I
37
MAIN
BOARD
(6/11)
(Page 38)
(Page 35)
29
MAIN
BOARD
(3/11)
21
MAIN
BOARD
(1/11)
(Page 33)
ADAC_L
ADAC_R
A-GND
SW+3.3V
OPT-IN
D-GND
DSP_DIR
A+5V
R781
R780
R790
47
47
0
• See page 71 for Waveforms. • See page 74 for IC Block Diagrams.
78
C723
0.1
R735
100
C720
5
220
4V
C721
0.01
(TYPE-11)
DVDD
DGND
C724
DGND
DVDD
3.2
R733
1M
R732
2.2k
15p
X701
12.288 MHz
C725
15p
MODE1(I)
XMCK(O)
1.6
R722
R742
3.200
MODE0(I)
XOUT(O)
1.5
XSEL(I)
XIN(I)
100
100
3738394041424344
CL(I)
ERROR(O)
BPSYNC(O)
CSFLAG(O)
EMPHA
(O)
0
CE(I)
AUDIO-
(O)
R736
DO(O)
VREF
DGND
DVDD
VF(O)
F2(O)
F1(O)
F0(O)
16
100
IC B/D
0
DI(I)
36
3.2
35
3.2
34
33
1.8
32
31
3.2
30
R730
R731
29
28
27
26
3.2
25
100
1k
C727
R738
C722
0.1
100
0.1
MOD0
DGND
R737
100
∗
1.6
DOUT
SCKI
7654321
1.6
1.6
(TYPE-12)
C716
0.01
0R713
IC B/D
IC772
A/D CONVERTER
IC772
PCM1808PWR
LRCK BCK
(TYPE-11)
13
R724
3.2
45464748
(I)
XMODE
1
DISEL(I)
2
SPDIF(O)
0
3
DIN0(I)
0
4
DIN1(I)
5
DIN2(I)
6
DGND
3.2
7
DVDD
∗
8
SDIN
9
AGND
0
10
LPF(O)
3.2
11
AVDD
12
AGND
CKSEL0(I)
CKSEL1(I)
CKOUT(O)
BCK(O)
LRCK(O)
13 14 15 16
1.6 3.3
1.6
1.6
DOSEL0(I)
DOSEL1(I)
IC702
DIGITAL AUDIO
INTERFACE RECEIVER
IC702
LC890561W
DATA(O)
XSTATE(O)
17 18 19 20 21 22 23 24
1.2
3.2
14
100
15
100
100
100
220
220
R723
R727
R728
R771
R725
(TYPE-12)
R709
0
C705
C707
R721
220
R778
0
0.1
10
16V
R708
0
C774
C775
16V
R754
R753
R726
R734
10
964 15 163
100
100
100
100
100R741
100R740
100R739
0.1
DIR_RST
SHIFT_DIR_CLK
DIR_HCE
SCDT_DIR_SDATA
DIR_DO
DIR_ERR
CSFLAG
DIR_XSTATE
DIR_ZERO
1012
SACD_SEL
100
R763
100
R757
100
R756
(TYPE-11) (TYPE-12)
C751
0.01
150
R755
0
12
12
12
1.6
1.6
1.6
IC B/D
IC704
DATA SELECTOR
IC704
SN74LVC257APWR
1
A/B
2
1A
3
1B
4
1Y
5
2A
6
2B
7
2Y
GND 3Y
12
3.2
16
VCC
0
15
G
1.6
14
4A
1.5
13
4B
1.6
12
4Y
1.6
11
3A
1.6
10
3B
1.6
98
R759
100
R758
10k
R761
R760
100
100
1311
100
100
R751
R752
DSP_INT
DSP_RESET
DSP_SPIDS
DSP_MISO
DSP_MOSI
DSP_SPICLK
P_CONT_DSP
DIR_XSTATE
14
0
R787
C752
0.1
25
R749
FB702
100
FB751
R762
220
AMP_MCKO
MCK
SW+3.3V
LRCK
D-GND
BCK
DIR_RERR
DIR_NONAU
SI_B
SI_A
DSP_INT
DSP_RESET
DSP_SPIDS
DSP_MISO
DSP_MOSI
DSP_SPICLK
P_CONT_DSP
DIR_XSTATE
MAIN
BOARD
(2/11)
(Page 34)
38
MAIN
BOARD
(5/11)
(Page
37)
HCD-X10
3636
Page 37
HCD-X10
6-12. SCHEMATIC DIAGRAM – MAIN Section (5/11) –
4 15 163
A
MAIN BOARD (5/11)
B
C66
C18
220
10
4V
0.1
C
0.1
C22
1.21.2
D
GND
19
109
1.2
VDDINT
110
GND
111
1.2
VDDINT
112
GND
113
1.2
VDDINT
114
GND
115
3.2
VDDEXT
116
GND
117
1.2
VDDINT
118
GND
119
1.2
VDDINT
120
3.2
RESET
∗
121
3.3
SPIDS
∗
122
GND
123
1.2
VDDINT
124
3.2
SPICLK
125
3.2
MISO
126
3.3
MOSI
127
GND
128
1.2
VDDINT
129
3.2
VDDEXT
130
1.2
AVDD
131
AVSS
132
GND
133
CLKOUT
134
3.2
EMU
∗
135
0.5
TDO
136
0
TDI
137
0
∗
TRST
138
0
TCK
139
0
TMS
140
GND
141
1.5
CLKIN
142
1.6
XTAL
143
3.6
VDDEXT
144
0.1C9
0.1C10
E
R13
DSP_RESET
DSP_SPIDS
F
SPICLK
DSP_MISO
MOSI
G
10k
R32
10k
R36
10
C4
10
C16
0.1
H
C002
I
9p
0.1C11
0.1
C12
C13
0.01
1kR24
0R25
C17
0.1
R26
22
R27
22
R28
22
C14
0.1
0.1
C7
C15
0.1
C8
0.01
22R29
22R30
0R20
0R6
0R18
0R16
0
R15
C001
9p
1M
R35
X1
25MHz
R023
220
0.1
C25
C24
1.2
1.2
GND
VDDINT
VDDINT
VDDINT
VDDINT
CLKCFG0
CLKCFG1
BOOTCFG0
123456789101112131415161718192021222324252627282930313233343536
BOOTCFG1
0
3.2
3.2
3.2
• See page 71 for Waveforms. • See page 74 for IC Block Diagrams. • See page 82 for IC Pin Function Description.
5
DIR_NONAU
DSPMCK
78
BCK
LRCK
AMP_BCKO
AMP_LRCKO
18
SI_B
SI_A
96
1012
17
FB
1
1.2
2.5
12345
(TYPE-11)
2.5
EN
IN
GND
OUT
(TYPE-12)
R2
10k
R14
2k
C59
0.1
3.2
3.2
54
VCC
D
CLK
1.6
3.2
R34
100
(TYPE-11)
(TYPE-12)
R42
10k
321
DGND Q
R4
1k
R92
100
IC B/D
IC4
D FLIP-FLOP
IC4
74LVC1G79GW-L5
100R90
100R91
C65
0.1
GND
DPDVLRCK
VDDINT
AD6
0R60
0.1C34
1.2
1.2
GND
VDDINT
AD5
AD4
1.2
DPSIE
VDDINT
DPSID
GND
AD3
DPSIC
0R59
0R58
1.2
1.2
DPSIA
DPSIB
AD2
VDDEXT
3.2
DPSOE
GND
0.1C39
0.1
C37
1.2
3.2
737475767778798081828384858687888990919293949596979899100101102103104105106107108
GND
GND
VDDINT
VDDEXT
72
VDDINT
71
DPSOD
70
DPSOC
69
GND
68
VDDINT
67
GND
66
VDDINT
65
DPSOB
64
DPSOA
63
SPI_MAS
62
PF_CE
61
GND
60
VDDINT
59
VDDEXT
58
GND
57
A18
56
A17
55
GND
54
VDDINT
53
A16
52
AD8
51
AD9
50
AD10
49
AD11
48
GND
47
VDDINT
46
AD12
45
VDDEXT
44
GND
43
AD13
42
AD14
41
AD15
40
ALE
∗
RD
39
GND
38
VDDINT
37
AD1
AD0
WR∗VDDINT
1.2
C44
0.1
1.2
R65
22
1.6
1.2
0.1
C45
1.6
1.6
1.2
3.2
1.2
1.2
3.2
1.2
22R66
R67
22
0.1
C46
0.1
C47
0.1
C48
0.1
C49
0.1
C50
C52
220
C51
0.1
R10
0
C58
220
4V
C63
0.1
R1
0
AMP_D3
AMP_D2
AMP_D1
C53
10
C62
0.1
C56
100
16V
4V
0.1C30
VDDEXT
0R51
47R53
1.6
VDDINT
DPBCK
1.6
1.6
DPLRCK
22R54
1.6
DPDVBCK
0.1C31
1.2
GND
GND
0R48
1kR47
VDDINT
∗
SF_CE
1.2
∗
VDDINT
NONAUDIO
0.1
C29
3.201.6
GND
DPFSCK
0.1
C27
1.2
1.2
1.2
GND
GND
GND
VDDINT
VDDINT
0R52
IC1
DSP
IC1
ADSST-AVR-1115
(TYPE-11) (TYPE-12)
GND
VDDEXT
GND
VDDINT
GND
VDDINT
GND
VDDINT
GND
INT_REQ
DIR_ERR
AD7
GND
VDDINT
GND
VDDEXT
GND
3.2
1.2
0
1.2
1.2
1.2
3.2
1.2
3.2
12
1311
IC B/D IC B/D
IC5
+1.2V REGULATOR
IC5
SI-3010KM-TL
OUT
FB
1
2.5
GND
IN
4
EN
12345
(TYPE-11)
3.2
(TYPE-12)
C71
R7
0.1
C68
100
16V
R3
220k
3.2
3.2
1.6
8765
Vcc
3.2
3.2
1.6
C69
0.1
3.2
TC7WZ08FK(TE85R)
GND
4321
(TYPE-11)
15k
R44
10k
IC6
SWITCHING
IC6
R9
1k
C72
100
16V
3.2
RT1P140C-TP-1
(TYPE-12)
C70
0.22
14
IC9
+2.6V REGULATOR
SI-3010KM-TL
Q1
INVERTER
3.2
IC9
BCK
LRCK
DSPMCK
DIR_NONAU
DSP_INT
DSP_RESET
DIR_RERR
DSP_SPIDS
DSP_MISO
MOSI
SPICLK
AMP_D1
AMP_D2
AMP_D3
AMP_BCKO
AMP_LRCKO
SI_A
SI_B
R12
R11
AMP_D1
AMP_D2
AMP_D3
AMP_BCKO
AMP_LRCKO
E+4V
SW+3.3V
SI_A
SI_B
BCK
LRCK
0R70
MCK
DIR_NONAU
DSP_INT
DSP_RESET
DIR_RERR
DSP_SPIDS
DSP_MISO
0
DSP_MOSI
0
DSP_SPICLK
P_CONT_DSP
1kR8
DIR_XSTATE
D-GND
26
MAIN
BOARD
(2/11)
(Page 34)
38
MAIN
BOARD
(4/11)
(Page 36)
HCD-X10
0R49
DSP_INT
1kR50
DIR_RERR
C33
C32
0.1
0.1
C35
0.1
C23
0.1
J
R17 0
10k
R41
C26
0.1
10k
10k
R43
R45
C28
0.1
C40
0.1
C36
0.1
C43
10
K
3737
Page 38
HCD-X10
6-13. SCHEMATIC DIAGRAM – MAIN Section (6/11) –
MAIN BOARD (6/11)
CN409
18P
A
WM_TXD
WM_RXD
B
C
WM_AD
WM_DET
VIDEO5V
VBUS(5V)
D
E
M
P-AMP
BOARD
F
(4/5)
CN3004
VGND
VIDEO
DGND
PGND
DMPORT1
18
17
16
15
R+
14
L+
13
R-
12
L-
11
10
9
8
DET
7
TXD
6
RXD
5
4
NC
3
2
1
CN412
3P
1
+5V
2
GND
3
+5V
C449
C421
R469
75
1
C446
50V
1
C447
50V
1
C406
50V
1
C407
50V
0.1
C419
C448
0.1
0
R439
0
0
R471
R452
0
R483
0
R485
R484 0
100
16V
16V100
(Page 69)
G
CN410
18P
DMPORT2
VGND
H
I
J
VIDEO
WM_TXD
WM_RXD
WM_AD
WM_DET
VIDEO5V
VBUS(5V)
DGND
PGND
18
17
16
15
R+
14
L+
13
R-
12
L-
11
10
9
8
DET
7
TXD
6
RXD
5
4
NC
3
2
1
C427
C438
C408
C409
C420
C439
R454
75
1
50V
50V
1
1
50V
1
50V
0.1
0.1
• See page 74 for IC Block Diagrams.
5
R465
22
R458
22
C443
R461
22k
R442
C433
R453
22k
22k
100
16V
(TYPE-11)
(TYPE-12)
R445
R486
R467
22k
R448
4.7k
IC403
LINE AMP
IC403
NJM4558M-TE2
22k
22k
IC440
LINE AMP
IC440
NJM4558M-TE2
R474
22k
R447
R499
R500
R470
R463
22k
R446
R440
R487
4.7k
22k
22k
100
16V
C441
0.1
4.7k
4.7k
47k
22k
R450
22k
4321
4.5
4321
GND
4.5
R472
22k
GND
R488
+
-
4.5 4.5
R459
22
4.54.5
+
-
R441
22k
22k
4.5
+
4.5
R473
22k
R457
10k
R451
22k
4.59
4.5
+
VDD
8765
4.5
4.5
VDD
8765
9
(TYPE-11)
(TYPE-12)
C430
R443
0
100
16V
78
IC412
DMPORT SELECTOR
IC412
SN74LV125APWR
0
87
9
3A
0
10
3G
0
11
4Y
0
12
4A
3.2
13
4G
3.2
14
Vcc
IC B/D
(TYPE-11) (TYPE-12)
GND3Y
3.20
6
2Y
3.2
5
2A
0
4
2G
1.2
3
1Y
3.2
2
1A
3.2 3.2
1
1G
R456
R468
R466
IC B/D
IC441
MC14052 BDR2
0
98
9
4.5
4.5
4.5
4.5
4.5
9
VSSB
10
A
11
X3
12
X0
13
X
14
X1
15
X2
16
VDD
7
VEE
6
INH
5
Y1
4
Y3
3
Y
2
Y2
1
Y0
(TYPE-11) (TYPE-12)
R460
100
100
100
100
IC441
AUDIO SELECTOR
4.5
4.5
4.5
4.5
4.5
964 15 163
R455
22
RT1N241C-TP-1
R407
0
0
Q405
INVERTER
Q408,409
CONTROL
Q408
RT1P141C-TP-1
C465
10
16V
R490
47k
R491
47k
C466
10
16V
C470
0.1
MUTING
1012
C475
10
16V
C476
10
16V
R411
10k
9
99
0
Q406
2SC5938-T112-1B
Q407
2SC5938-T112-1B
Q406,407
MUTING
(TYPE-11) (TYPE-12)
IC B/D
IC442
VIDEO SELECTOR
NJM2235V(TE2)
3.2
1
IN1
2
SW1
2
3
IN2
3.2
SW2
Q410,411
INVERTER
R412
10k
Q410
RT1N241C-TP-1
0
RT1N241C-TP-1
Q409
RT1N141C-TP-1
R494
R492
10k
R495
R409
10k
Q411
0
10k
3.7
0
3.7
0
3.7
10k
IC442
C403
R496
R497
C478
1311
R480
C469
0.1
100
16V
100
C477
12
8
GND
1.63.2
7
OUT
5
6
VDD
2.3
54
IN3
14
10uHL401
16V
10
SEL_V
A5V
V
V_SEL4
V_SEL0
32
MAIN
BOARD
30
MAIN
BOARD
(3/11)
(Page 35)
37
MAIN
BOARD
(4/11)
(Page 36)
(3/11)
(Page 35)
CLINK_TX_OUT
CLINK_SEL
D-GND
SW+3.3V
CLINK_RX_IN
CLINK_DET
0.1
0.1
0.1
(TYPE-11) (TYPE-12)
C481
C482
C483
C463
100
16V
3.2
0
R498
4.7k
4.7k
1k
R401
1k
R410
10k
10k
R479
C464
0.1
R408
100k
IC401
NJM4558M-TE2
IC401
LINE AMP
C473
100
16V
C474
0.1
47
16V
R414
100k
R402
4.7k
(TYPE-11)
IC443
+9V REGULATOR
9 12.1
TA7809AF-(T6LISONQ
R405
470
3.7
3.7
3.7
-
+
+
-
GND
4321
3.7
3.7
R406
470
31OGI
IC443
R489 0
R493 0
9
8765
VDD
3.7
A9V
A-GND
C462
C404
C405
0.47
A12V
A_SEL3
A_SEL2
TUNER_L
TUNER_R
AV_L
AV_R
A_SEL4
1
50V
1
50V
ADAC_R
A-GND
ADAC_L
2
(TYPE-12)
HCD-X10
3838
Page 39
HCD-X10
6-14. SCHEMATIC DIAGRAM – MAIN Section (7/11) –
A
B
C
D
E
F
G
H
I
J
K
L
M
N
M
O
P
(Page
40
MAIN
BOARD
(9/11)
(Page
41)
41
MAIN
BOARD
(9/11)
(Page
41)
(Page
40)
40)
BOARD
BOARD
39
MAIN
(8/11)
42
MAIN
(8/11)
TROPENPWM
MUTE123
IOPMON
LIMITSW
D1
D2
D3
D6
D4
D5
D11
D10
D9
D7
D8
VREFO
DMO
FMO
TRO
FOO
SPFG
FWD
REV
MUTE
TSD_M
CKSW
OCSW
D12
D13
D14
D15
D16
D17
D18
D19
D20
D21
D22
D23
D24
MAIN BOARD (7/11)
10
VOA
VOB
VOC
VOD
VOE
VOF
FWD
REV
MUTE123
MUTE
TSD_M
LIMITSW
4 18 2115 163
R1134
100
C1166
0.01
R1128
10k
FB1104
R1135
15p
C1163
27MHz
X1100
R1143
680
IC1107
(3.2)
(1.7)
(1.6)
OSC BUFFER
IC1107
654
TC7PAU04FU(TE85R)
VDD
(TYPE-11)
(TYPE-12)
GND
321
)
∗
(1.6)
(
C1128
C1129
C1130
C1131
1
C1127
C1134
0.1
16V10C1116
0.1
C1115
16V10C1118
0.1
C1117
0.1
C1119
C1135
C1120
0.1
10
16V
C1124
4700p
0.01C1132
0.01C1133
A2
A3
A4
A5
A6
A7
A8
A18
A19
R1127
0
R1122
C1136
10k
5 17
100
1
1
1
1
100R1129
1500p
C1161
15p
R1131
R1138
0
R1142
100k
(1.7)
(1.7)
(1.7)
(1.7)
(1.7)
(2)
(2)
(2)
(2)
(2)
(2)
(0.2)
(2.6)
(3.3)
(3.3)
(2.7)
(2)
(1.4)
(1.4)
(2.2)
(1.3)
(0)
(1.4)
(1.4)
(1.3)
(3.2)
(0)
(3.2)
(0)
(0)
(3.2)
(1.8)
∗
)
(
∗
)
(
(
∗
)
∗
)
(
(
∗
)
∗
)
(
(
∗
)
∗
)
(
∗
)
(
(1.6)
(0)
FB1100
100k
C1137
0.1
0.1
15k
R1130
(3.3)
(0.9)
IREF
AVDD3
1
AGND
2
DVDA
3
DVDB
4
DVDC
5
DVDD
6
DVDRFIP
7
DVDRFIN
8
MA
9
MB
10
MC
11
MD
12
SA
13
SB
14
SC
15
SD
16
SDFON
17
SDFOP
18
TNI
19
TPI
20
MDI1
21
MDI2
22
LDO2
23
LDO1
24
SVDD3
25
CSO
26
RFLVL
27
SGND
28
V2REFO
29
V2O
30
VREFO
31
FEO
32
TEO
33
TEZISLV
34
OPOUT
35
OP_INN
36
OP_INP
37
DMO
38
FMO
39
TROPENPWM
40
IOPMON
41
TRO
42
FOO
43
USB_VSS
44
USBP
45
USBM
46
USB_VDD3
47
SPFG
48
MSW
49
CKSW
50
OCSW
51
EEWP
52
DVDD18
53
HA2
54
HA3
55
HA4
56
HA5
57
HA6
58
HA7
59
HA8
60
HA18
61
HA19
APLLCAP
62
DVSS
APLLVSS
63
64
APLLVDD3
XWR
65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100101 102 103104 105 106107 108 109110 111 112113 114 115116 117 118119 120 121122 123 124125 126 127128
(3.3)
(3.2)
2.2C1138
XWR
0.033
C1141
0.1
C1139
C1143
(1.2)
(1.5)
(1.5)
(1.9)
OSP
OSN
RFGC
CEQP
CEQN
RFGND
CRTPLP
HA16
HA15
HA14
HA13
HA12
HA11
DVDD3
)
)
)
)
)
)
∗
∗
∗
∗
∗
∗
(
(
(
(
(
(
(3.2)
0.01C1144
A11
A12
A13
A14
A15
A16
• See page 71 for Waveforms. • See page 82 for IC Pin Function Description.
78
(Page 36)
1
0.1
0.1C1149
22p
0.1
C1151
C1154
C1150
C1147
0.1
0.1C1146
1000p
C1148
)
)
∗
∗
(
(1.4)
(
HRFZC
RFRPAC
HA10
HA9
)
)
)
∗
∗
∗
(
(
(
A9
A10
A20
RFRPDC
HA20
C1156
0.047
C1152
(1.1)
(3.3)
(1.7)
(1.4)
(3.3)
VSS
VCM
VDD3
VREFP
VREFN
RFVDD3
XROMCS
HA1
XRD
DVDD3
HD0
HD1
)
)
)
∗
∗
∗
(
(
(
(0)
(0)
(3.2)
0.01C1153
HD1
HD0
XRDA1XROMCS
96
(Page 42)
36
MAIN
BOARD
(4/11)
ABCK
ALRCK
ACLK
ASDATA0
SPDIF
43
(Page 43)
MAIN
BOARD
(10/11)
ALRCK
ABCK
ACLK
ASDATA4
ASDATA2
ASDATA1
ASDATA0
SPDIF
12 19
(Page 42)
44
45
MAIN
MAIN
BOARD
BOARD
(11/11)
(10/11)
TX27M
VSYNC
HSYNC
SMSCK
SMSDO
XSMCS
SMSDI
7
FB1113
FB1114
C1162
1000p
C1159
0.1
16V
10
C1157
0.047
(1.6)
(1.6)
LPFIN
LPFOP
680k
C1160
R1139
C1165
0.1
(3.3)
(1.6)
(1.6)
(0)
(0.7)
(1.4)
(1.6)
IDAC
LPFIP
XTALI
J1TFO
J1TFN
LPFON
PLLVSS
PLLVDD3
(TYPE-11) (TYPE-12)
HD2
HD3
DVSS
HD4
HD5
HD6
HA21
ALE
HD7
HA17
)
)
)
)
)
)
)
)
∗
∗
(
(
HD2
HD3
)
∗
∗
∗
∗
∗
∗
∗
(
(
(
(
(
(
(
0R1137
A21
A0
A17
HD7
HD6
HD5
HD4
FB1103
(1.8)
XTAL0
RFVDD18
IC1105
RF AMP,SERVO DSP,
MPEG DECODER
CXD9804R
HA0
DVSS
RFGND18
IC1105
UWR
R1171
R1170
R1169
R1148
47
0.01
C1168
47
47
47
4.7k
47
R1151
R1146
(1.8)
(1.6)
(1.2)
(0)
GPIO
DVSS
SPDIF
SPDATA
DVDD18
ASDATA4
WRD
DVDD18
IFSDO
IFSCK
XIFCS
IFSDI
)
∗
(0)
(
(1.8)
(3.2)
(3.2)
0R1147
0R1149
0R1152
0.01C1167
3.3k
3.3k
3.3k
R1194 0
R1196 0
R1197 0
R1200 0
47
47
47
R1162
R1158
R1156
R1175
R1166
R1172
(3.2)
(1.6)
(1.6)
(1.5)
(1.2)
(0)
(0)
ACLK
ABCK
DVSS
ALRCK
DVDD3
ASDATA0
ASDATA1
ASDATA2
SCL
SDA
TRG-SW
XRST
RXD
TXD
DVDD3
ICE
(3.2)
(3.2)
(3.2)
(3.7)
(3.2)
(3.2)
0R1157
0R1173
0R1159
0R1167
0.01C1170
R1165
3.3k
FB1115
(3.1)
(3.1)
XSMCS
SMSDO
XSYSRSTIRXTXINT
(3.3)
100R1179
R1191 0
0
R11870R11860R11820R1178
(0.7)
(3.2)
(3.1)
(3.2)
(3.2)
(3.1)
YUV7
VSYN
SMSDI
DVDD3
SMBSY
SMSCK
DQMO
XIF5SY
RD7
DVSS
RD6
)
)
)
∗
∗
∗
(
(2)
(
(
(2.4)
0
0.01
R1183
C1171
RD6
RD5
RD7
DQMO
R1195 0
1311
14
9
8
4
5
6
0.01
C1172
(0.6)
(0.7)
YUV5
YUV6
DAVSS
RD5
DVSS
RD4
)
)
∗
∗
(
(
RB1100
0
RD4
3
FB1107
FB1108
FB1109
FB1110
FB1111
FB1112
2
1
0
0
R1188
R1192
0.01
C1174
(0.6)
(3.3)
(0.7)
(0.6)
(3.3)
193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230240 231232233234235236237238239241242243244255256 245246247248249250251252253254
YUV1
YUV2
YUV3
YUV4
RD3
(1.8)
0.01C1173
RD3
DAVDD
DVDD18
DAVSS
DAVSS
DAVDD
192
CIN
(0)
191
FS
190
DACVDDC
(3.3)
189
DAVCC
188
XDACS
(3.2)
187
ADSDO
(3.2)
186
FWD
(3.2)
185
REW
(3.2)
MUTE123
184
(3.2)
183
MUTE
(3.2)
182
DVDD3
(3)
TSD_M
181
180
ADSCK
(0)
179
WIDE
(1.6)
178
VCLK
(1)
177
SMPTE_Y(0)
(0.9)
176
SMPTE_Y(1)
175
DVSS
(0.8)
174
SMPTE_Y(2)
(1.8)
173
DVDD18
(0.7)
172
SMPTE_Y(3)
(1.3)
171
SMPTE_Y(4)
(1.2)
170
SMPTE_Y(5)
(1.2)
169
SMPTE_Y(6)
(1.6)
SMPTE_Y(7)
168
(3.2)
DVDD3
167
(1.6)
RA4
166
(1.5)
RA5
165
(1.5)
RA6
164
DVSS
163
(1.4)
RA7
162
DVSS
161
(0)
RA8
160
(0)
RA9
159
(0)
158
RA11
(1.7)
157
CKE
(1.6)
156
DRCLK
(3.2)
155
DVDD3
154
RCLKB
153
RVREF
(1.8)
152
DVDD18
(1.5)
151
RA3
(2)
150
RA2
(2)
149
RA1
148
DVSS
(0.7)
147
RA0
(0)
146
RA10
(1.8)
145
BA1
144
DVSS
(1.8)
143
BA0
(2.6)
142
RCS
(3.2)
141
DVDD3
(3.1)
140
RAS
(2.8)
139
CAS
(3.1)
138
RWE
(2)
137
DQM1
(3.2)
136
LINYSW
∗
)
(
135
RD8
134
DVSS
∗
)
(
133
RD9
(
∗
)
132
RD10
(
∗
)
131
RD11
∗
)
(
130
RD12
∗
)
(
129
RD13
RD2
RD1
RD0
RD15
DVDD3
RD14
)
)
)
)
)
∗
∗
∗
∗
∗
(
(
(
(
(
(3.2)
0.01C1175
RB1101
0
RD2
RD1
RD0
201012
R1199 0
R1201 0
R1204
2.2k
(AEP,UK)
R1223
0
100
R1214
R1215
R1216
R1217
C1178
R1218
10k
R1207
R1213
R1220
R1211
C1180
C1181
C1182
1000pC1183
FB1105
R1221
0
C1184
47
10V
1000pC1187
100
1000pC1188
100
1000pC1189
1000pC1190
100
0.01
1000pC1191
0
100
100
0.01C1179
22
0.01
0.01
0.01
FWD
REV
MUTE123
MUTE
TSD_M
47RB1109
47
RB1110
0
RB1103
RA4
RA5
RA6
RA7
0
RB1104
RA11
CLKE
0RB1105
0RB1106
0RB1102
0RB1107
0RB1108
RA4
RA8
RA5
RA9
RA6
RA7
RA8
RA9
RA11
RA3
RA2
RA1
CLKE
RA0
RA10
BA1
DQM1
BA0
RCS
RAS
CAS
RWE
DQM1
RD8
RD9
RD10
RD11
RD12
RD13
RD14
RD15
RB1111
0
RD8 RD7
RD9
RD10
RD11
RD12
RD13
RD14
RD15
FB1106
C1192
0.1
RB1112
0
C1193
0.1
28 27
(1.6)
29
(1.5)
30
(1.5)
31
(1.4)
32
(0)
33
(0)
34
(0)
35
36
(1.7)
37
(1.6)
38
(2)
39 16
40
41
∗
)
(
42
(3.2)
43
∗
)
(
44
∗
)
(
45
46
(∗)
47
(∗)
48
(3.2)
49
∗
)
(
50
∗
)
(
51
52
(∗)
53
54 1
VSS
A4
A5
A6
A7
A7
A9
A11
NC
CLKE
CLK
VDQM
NC
VSS
DQ8
VDDQ
DQ9
DQ10
VSSQ
DQ11
DQ12
VSSQ
DQ13
DQ14
VSSQ
DQ15
VSS
IC1109
M12L64164A-7T(G)
IC1109
SD-RAM
(3.2)
VDD
A3
A2
A1
A0
A10
BA1
BA0
CS
RAS
CAS
WE
LDQM
VDD
DQ7
VSS
DQ6
DQ5
VDDQ
DQ4
DQ3
VSSQ
DQ2
DQ1
VDDQ
DQ0
VDD
C1196
0.1
(1.6)
26
(2)
25
(2)
24
(0.7)
23
(0)
22
(1.8)
21
(1.5)
20
(2.6)
19
(3.1)
18
(2.8)
17
(3.1)
(2)
15
(3.2)
14
∗
)
(
13
12
∗
)
(
11
∗
)
(
10
(3.2)
9
(∗)
8
(∗)
7
6
∗
)
(
5
(∗)
4
(3.2)
3
∗
)
(
2
(3.2)
RA3
RA2
RA1
RA0
RA10
BA1
BA0
RCS
RAS
CAS
RWE
DQMO
RD6
RD5
RD4
RB1113
47
C1197
0.1
RD3
RD2
RD1
RD0
RB1114
47
C1194
0.1
C1195
47
10V
LIMITSW
(TYPE-11) (TYPE-12)
CR/R
CB/B
Y/G
V
C
Y
D-GND
RGBSEL
WIDE
VCLK
YUV0
YUV1
YUV2
YUV3
YUV4
YUV5
YUV6
YUV7
D-GND
SW+3.3V
2322
31
MAIN
BOARD
(3/11)
46
MAIN
BOARD
(10/11)
55
MAIN
BOARD
(2/11)
(Page 35)
(Page 42)
(Page 34)
HCD-X10
IFSDI
XIFCS
IFSCK
Q
IFSDO
34
MAIN
BOARD
(3/11)
XSYSRST
(Page 35)
D-GND
XIFBSY
3939
Page 40
HCD-X10
6-15. SCHEMATIC DIAGRAM – MAIN Section (8/11) –
4 15 163
(8/11)MAIN BOARD
A
RF+3.3V
48
REG01
MAIN
BOARD
REG02
(9/11)
(Page 41)
B
C
D
E
OPTICAL
PICK UP
BLOCK
KHM-310CAA
or
KHM-313CHH
()
(1/2)
(LO DVD HI CD)MSW
F
G
BOARD
49
MAIN
(9/11)
GND(LD)
LD(650)
LD(780)
VR(650)
VR(780)
VOE/E+G
VOF/F+H
VOB/B
VOA/A
VOD/D
VOC/C
FCS+
TRK+
FCS+
IOP
CN1102
24P
1
2
3
N.C
4
N.C
5
PD
6
7
8
9
N.C
10
11
VCC
12
VC
13
GND
14
15
16
17
RF
18
19
20
21
TR-
22
TR+
23
24
FCS-
TRK-
FCS-
CD_LD
TRK-
TRK+
FCS+
TRK-
TRK+
FCS+
DVD_LD
VOE
VOF
VOB
VOA
VOD
VOC
FCS-
FCS-
R1101
0
C1108
0.22
(Page 41)
H
I
(Page 34)
47
MAIN
BOARD
(2/11)
50
MAIN
BOARD
(11/11)
SW+5V
D-GND
SW+3.3V
XRSTIN
DVD_LD
CD_LD
(Page 43)
J
K
L
• See page 74 for IC Block Diagrams.
5 17
(TYPE-11)
(TYPE-12)
1k
10k
0.01
R1100
C1106
Q1102-1
AUTOMATIC POWER
CONTROL(FOR CD)
Q1102-2
AUTOMATIC POWER
CONTROL(FOR DVD)
R1111
1MR1106
R1110
C1107
0.22
47k
C1122
0.22
R1108
100
R1112
22
C1105
47
10V
(1.3)
GND
CONT
VIN
54
(3.3)
(4.9) (3.2)
(0)
(0)
(0)
RT1N241C-TP-1
INVERTER
R1114
(2.6)
C1121
0.01
321
NOISE
VOUT
C1112
0.22
Q1100-1
CD ON SWITCH
Q1100-2
DVD ON SWITCH
UM6K1N-TN
G1
S1
Q1101
R1115
22
22
(3.2)
(2.5) (0.3)
IC1102
+3.3V REGULATOR
(TYPE-11)
(TYPE-12)
C1100
0.01
100kR1103
100k
R1104
78
(3.3)(4.9)
5 4
VIN
VOUT
CONT
GND
NOISE
321
(3.2) (1.3)
C1111
0.01
Q1100
(0)
S2D2
(3.2)
G2
(0)
D1
(0)
(3.2)
R1116
-2 -1
IC B/D
IC1102
TK11133CSCL-G
R1121
22
(3.7)
0
Q1102
QST8TR
R1118
22
R1117
22
(3.3)
R1109
0
FB1101
IC B/D
IC1101
+3.3V REGULATOR
IC1101
TK11133CSCL-G
C1109
47
10V
C1110
0.01
C1123
R1113
1
47k
R1119
47k
R1120
0
96
R1102
100
(TYPE-11)
(TYPE-12)
IC1100
FLASH ROM
IC1100
S29AL032D70TF-OHE3-0701UC
S29AL032D70TE-0HE3-0701CE
1012
(TYPE-11)
(TYPE-12)
(3.2) (1.8)
A17
)
∗
48 43
47 45 44 42 41 37383940
A16
BYTE
(US,CND)
(AEP,UK)
A15
A14
)(
)
)
∗
∗
∗
(
(
(
A16
A15
A14
R1125
1k
(3.2)
(3.2)
(3.2)
8765
WF
SCL
VCO
A0A1A2
IC1103
+1.8V REGULATOR
IC1103
MM1661JTRE
I
31
G
2
A0
HD7
)
)
∗
∗
(
(
A-1
VSS
A13
A12
)
)
∗
∗
(
(
A13
A12
R1126
1k
(TYPE-11)
(TYPE-12)
(3.2)
GND SDA
4321
O
DQ7
DQ14
A11
A10A9A8
65464321
)
∗
(
A11
IC1104
EEPROM
IC1104
BR24L64F-WE2
R1132
2.7k
HD6
)
∗
(
DQ6
DQ13
)
)
∗
∗
(
(
A10A9A20
FB1102
0
R1140
C1125
12
0.33
HD5
)
∗
(
DQ5
A19
)
∗
(
C1126
HD4
C1101
1
)
∗
(
(3.2)
VCC
DQ4
DQ12
A20
WE
RESET
1210 11987
)
∗
(
(3.2)
(3.2)
100
R1153
A21
R1141
0
(3.3)
(3.2)
321
GND
(3.2)
(3.2)
47
4V
HD3
)
∗
(
36 3132333435
DQ11
N.C.
(3.2)
10k
R1105
VCC
(TYPE-11)
54
(TYPE-12)
C1158
0.01
1311
R1124
0
R1123
1k
HD2
)
∗
(
DQ2
DQ3
DQ10
A18
WP/ACC
RY/BY
)
∗
(
(3.2)
10kR1107
A19
R1144
0
IC1108
SWTICHING
IC1108
TC7SH08FU(T5RSOYJF)
14
HD1
HD0
XRD
)
)
∗
∗
(
(
DQ1
DQ9
A17A7A6A5A4A3A2
181716151413
)
)
∗
∗
(
(
A18A8A7A6A5A4A3
(0)
30 29 28 27 26 25
OE
VSS
DQ0
DQ8
)
)
)
)
∗
(
∗
∗
∗
(
(
(
XROMCS
(0)
CE
)
∗
(
D1
D2
D3
D4
D5
D6
D7
D8
D10
D11
D9
CN1101
D15
D16
D17
D18
D19
D20
D12
D21
D13
D24
D23
D22
D14
6P
6
RFMON
5
V2REFO
4
+3.3V
3
D-GND
2
RXD
1
TXD
A1
XWR
)
∗
(
A1 A0
242322212019
)
∗
(
A2
39
MAIN
BOARD
(7/11)
BOARD
42
MAIN
(7/11)
(Page 39)
(Page 39)
(NC)
HCD-X10
4040
Page 41
6-16. SCHEMATIC DIAGRAM – MAIN Section (9/11) –
HCD-X10
A
B
C
D
E
F
G
40
MAIN
BOARD
(7/11)
(Page 39)
48
MAIN
BOARD
(8/11)
(Page 40)
IOPMON
VREFO
MUTE123
TROPENPWM
TSD_M
REG02
REG01
RF+3.3V
SPFG
FMO
DMO
FWD
MUTE
5
(9/11)MAIN BOARD
10k
R1334
R1331
15k
C1309
C1308
4700p
R1317
1k
R1314
10k
R1310
FOO
TRO
R1304
R1309
R1316
33k
R1306
10k
33k
R1308
C1302
0.01
1.2k
10k
R1307
47k
6.8k
R1313
C1305
IC1300
FOUCUS/TRACKING COIL DRIVE,
SPRING/SLED/LOADING MOTOR DRIVE
R1305
2.7k
0.01
IC1300
FAN8036L
R1311
15k
C1303
220p
12kR1312
C1304
220p
12k
(TYPE-11)
(TYPE-12)
27kR1315
R1320 33k
REV
IOP
R1326 0
R1325 0
R1318
0.033
56k
C1311
0.033
(1.4)(1.4)
(2.6)
(5.1)
(1.4) (3.7)
1
(1.4)
2
(1.4)
3
(1.4)
4
(1.4)
5
(3.2)
6
GND
(3.2)
7
(2.2)
8
(1.4)
9
(1.4)
10
(1.4)
11
(1.4)
12
13 14 15 16 17 18 19 20 21 22 23 24
(0)
(1.1)
10kR1319
0.01C1310
C1313
0.01
56k
R1323
C1314
(1.4)
(0)
(4.9)
464748
45
(3.2)
(3.2)
C1312
R1327
0.01
82k
1000p
GND
GND
(3)
(3.2)
100kR1321
100kR1322
18kR1332
(2.9)
(3.2)
(1.6)
(3.2)
R1333
33k
(8)
(8)
(3)
(8)
78 14
C1315
0.01
(3.9)
3738394041424344
36
(3.8)
35
(3.8)
(3.8)
34
33
(5)
32
(3.7)
31
GND
(3.8)
30
(3.8)
29
(2.6)
28
(5.1)
27
26
(3.8)
25
C1320
0.1
C1322
C1321
C1319
C1317
16V
0.01
16V
10
0.01
16V
10C1318
0R1348
47
9643
FCS-
SP-
SP+
SL-
FCS+
SL+
TRK+
TRK-
SL-
SL+
SP-
SP+
1012
C1323 1000p
C1324 1000p
R1346 100
R1338
4.7k
C1331
C1332
12 15
FCS-
FCS+
TRK+
TRK-
0.1
0.1
R1337 1k
R1336 1k
4.7k
R1339
R1335
4.7k
CN1300
CN1301
1kR1347
FCS-
FCS+
TRK+
TRK-
6P
1
SP-
2
SP+
3
LIMIT
4
(GND)LIMIT
5
SL-
6
SL+
5P
5
OCSW1
4
CKSW1
3
GND
2
LDM-
1
LDM+
OCSW1
OCSW
CKSW
LIMITSW
SW+3.3V
SW+5V
D-GND
SW+8V
MTR-GND
1311
49
MAIN
BOARD
(8/11)
(Page 40)
35
41
MAIN
BOARD
(7/11)
(Page 39)
28
MAIN
BOARD
(2/11)
(Page 34)
(Page 35)
MAIN
BOARD
(3/11)
OPTICAL
PICK UP
BLOCK
KHM-310CAA
or
KHM-313CAA
(2/2)
)
S001
(DISC TRAY CLOSE DETECT)
S001-1
(DISC TRAY OPEN DETECT)
S001-2
M301
(DISC TRAY OPEN/CLOSE)
(
CN001
5P
OCSW1
CKSW1
GND
LDMLDM+
HCD-X10
4141
Page 42
HCD-X10
6-17. SCHEMATIC DIAGRAM – MAIN Section (10/11) –
MAIN BOARD (10/11)
A
B
SPDIF
ASDATA2
C
(Page 39)
43
MAIN
BOARD
(7/11)
ASDATA1
ASDATA0
ALRCK
ABCK
ACLK
ASDATA4
SPDIF
ASDATA2
ASDATA1
ASDATA0
ALRCK
ABCK
ACLK
D
0.1C1701
VCLK
E
(Page 39)
F
46
MAIN
BOARD
(7/11)
YUV0
YUV1
YUV2
YUV3
YUV4
YUV5
YUV6
YUV7
0R1704
C1705
0.1
(3.3)
(1.6)
(0.9)
(0.8)
(0.7)
(1.3)
(1.2)
(1.2)
(1.6)
G
TX27M
45
VSYNC
MAIN
BOARD
HSYNC
(7/11)
(Page 39)
H
VSYNC
SSCK
I
51
MAIN
BOARD
(11/11)
(Page 43)
SSO
RST
INT
TRAP2
WP
MSD
MSCK
J
• See page 74 for IC Block Diagrams. • See page 82 for IC Pin Function Description.
78
ALRCK
ABCK
5
ACLK
ASDATA0
ASDATA1
ASDATA2
SPDIF
(TYPE-11)
C1713
0.1
R1766
47k
(TYPE-12)
C1716
22
10V
C1717
10
16V
C1718
47
10V
(0)
54
VCC
321
(0) (3.3)
(3.3)
0R1733
0R1717
0R1714
0R1720
0.1C1704
(1.8)(3.2)
(1.6)
(1.6)
(1.5)
ABCK
ALRCK
DVDD18
1
DVSS
2
C0
3
C1
4
C2
5
C3
6
C4
7
C5
8
C6
9
C7
10
DVDD33
11
VCK
12
DVSS
(1)
13
Y0
14
Y1
15
Y2
16
Y3
17
Y4
18
Y5
19
Y6
20
Y7
SSCK
SSO
DVDD18
21 22 23 24
(3.2)
(1.8)
(3.3)
1kR1710
1kR1713
4.7k
R1719
0R1728
0.1C1711
(1.2)
(0)
(0)
(1.2)
ACLL
AD0
AD2
AD1
(1.6)
R
AD3
SPDIF
IC1701
HDMI TRANSMITTER
IC1701
CXD9873Q
(3.3)
(3.3)
B
G
AVSS
AVSS
DAC_AVDD3
DAC_AVDD3
(TYPE-11) (TYPE-12)
PWDN
RST
CLK
INT
DVSSA7A6
TRAP2
TRAP1
TRAP0
MSCK
MSD
25 26 27 28 29 30 31 32 33 34 35 36 37 38 39
(0)
R1735
(3.3)
4.7k
10k
R1743
(0)
10k
R1746
(3.2)
100
R1722
10k
R1721
(1.6)
0R1724
(3.2)
0.01
C1707
TYPE
(0)
(3.3)
(3.3)
10k
R1749 0
R1750 0
R1752
FS
AVSS
ASDATA4
VSYNC
(3.1)
62636465666768697071727374757677787980
VREF
PLL_AVDD3
PLL_AVDD3
HSYNC
(3.2)
(3.3)
61
DAC_AVDD3
40
(0)
R1761
0
60
SWING
59
AVSS
58
TX2P
57
TX2N
56
AVDD3
55
TX1P
54
TX1N
53
AVSS
52
TX0P
51
TX0N
50
AVDD3
49
TCKP
48
TCKN
47
AVSS
46
AVSS
45
44
43
PLLC1
42
PLLC0
41
AVSS
HTPLG
4321
A2
GNDSDA
SCLWPVCC
(3.3)
(3.3)
(3.3)
(0)
(0)
(3.3)
(0)
(0)
(0)
(0)
(3.3)
(0)
(0)
(3.3)
(0.9)
TC7SH08FU(T5RSOYJF)
(TYPE-11)
(TYPE-12)
A0
A1
8765
(3.3)
(3.3)
R1779
0
R1760
510
C1712
5600p
IC1704
SWITCHING
IC1704
R1768
4.7k
IC1703
EEPROM
IC1703
BR24L16F-WE2
(TYPE-11)
(TYPE-12)
R1765 4.7k
R1769 1k
R1767 1k
964 153
FL1701
EMI
G
FL1702
EMI
G
0.1C1714
0.1C1715
FL1703
EMI
G
C1720
0.01
C1719
0.1
GND
1012
IC B/D
IC1705
+1.8V REGULATOR
IC1705
TK11118CSCL-G
C1721
47
4V
12
R1786
0
R1794
C1729
0.01
1k
321
GND
NOISEVOUT
(3.3) (1.3)
C1730
0.22
(4.9)
CONT
(TYPE-11)
VIN
54
(TYPE-12)
(4.9)
R1798
0
IC1707
+3.3V REGULATOR
TK11133CSCL-G
C1722
0.01
(1.3)(1.8)
321
GND
CONT
NOISEVOUT
VIN
54
(3.2) (3.2)
R1788
0
C1723
0.22
R1782
3
4
3
4
3
4
3
4
C1724
0.22
1k
L1700
2
1
L1701
2
1
L1702
2
1
L1703
2
1
IC B/D
IC1707
C1731
1311
0.22
0R1800
100R1801
14
CN1701
19P
HDMI OUT
SW+3.3V
D-GND
SW+5V
1
TMDS DATA2+
2
TMDS DATA2 SHIELD
3
TMDS DATA2-
4
TMDS DATA1+
5
TMDS DATA1 SHIELD
6
TMDS DATA1-
7
TMDS DATA0+
8
TMDS DATA0 SHIELD
9
TMDS DATA0-
10
TMDS CLOCK+
11
TMDS CLOCK SHIELD
12
TMDS CLOCK-
13
CEC
14
RESERVED
15
SCL
16
SDA
17
DOC/CEC GND
18
+5V POWER
19
HPD
+5V_POWER
SDA
SCL
CEC
GND
52
MAIN
BOARD
(2/11)
(Page 34)
53
MAIN
BOARD
(11/11)
(Page 43)
HCD-X10
4242
Page 43
HCD-X10
6-18. SCHEMATIC DIAGRAM – MAIN Section (11/11) –
MAIN BOARD (11/11)
A
(Page
MSCK
42)
MSD
WP
51
RST
MAIN
TRAP2
BOARD
SSO
(10/11)
VSYNC
SSCK
INT
C1702
0.01
B
C
R1708
0R1707
4.7kR1706
0
D
X1700
10MHz
E
F
C1703
22
10V
(Page
40)
G
50
XRSTIN
MAIN
BOARD
(8/11)
XSMCS
44
MAIN
BOARD
(7/11)
SMSDI
SMSDO
SMSCK
H
(Page
39)
R1703
R1716
R1718
0R1730
0R1715
0
R1712
(3.2)
(3.2)
(0)
(1.4)
(1.4)
11
0
0
0
AVSS
1
AVCC
2
AVR
3
PE3/INIT13
4
PE2/INIT12
5
PE1/INIT11
6
PE0/INIT10
7
P83
8
P82
9
P81
10
P80
11
P71TIO
12
P70/TO0
13
MOD
14
X0
15
X1
16
VSS
VDD
17 18 19 20
(3.2)
C1706
0.01
R1711
0
R1736
• See page 71 for Waveforms. • See page 74 for IC Block Diagrams. • See page 82 for IC Pin Function Description.
5 17
(3.2)
(3.2)
(3.3)
(3.2)
61626364
SCK
SDA
(3.2)
TRAP2
XPWDN
XTXRST
P35/AN05
IC1702
HDMI CONTROLLER
IC1702
MB95F108ASPFV-GE1-H0701
P36/AN06
P37/AN07
P40/AN08
P41/AN09
P43/AN11
P42/AN10
HDCP-_WP
(3.3)
HDCP-SCI
HDCP-SDA
(3.3)
(TYPE-11) (TYPE-12)
PG0/(CIN)
PG2/X1A
PG2/X0A
XRST
VSYNC
XSMCS
XTXINT
P03/INT03
P04/INT04
P05/INT05
P06/INT06
P07/INT07
0R1727
SDI
(3.1)
(3.1)
0R1747
0R1732
21 22 29282726252423 30 31 32
(3.2)
(3.1)
(3.1)
(3.2)
R1729 4.7k
0R1731
R1744
4.7k
R1734 4.7k
0R1740
C1708
0.01
100R1726
100
78 14
(3.3)
495051525354555657585960
EC1/P64
TO11/P63
TO00/P62
PRGII/P61
PRGIO/P60
TRG1/PS3
PPG1/PS2
PS1/SDAO
PS0/SCLO
EC0/P24
TO01/P23
TO00/P22
PPG01/P21
PPG00/P20
PP00/P14
ADIG/TR00
SDO
(3.2)
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
/P13
SCK
R1762
(3.2)
(3.2)
R1763
(0)
10k
10k
R1758
Q1700
2SK1399-T1B
4.7k
(3.2)
R1770
R1771
R1772
0
(5)
S
(3.2)
0
0
964 15 163
R1774
0
(5)
Q1700,1701
LEVEL SHIFT
Q1701
2SK1399-T1B
S
(3.2)
(3.2)
1012
0R1790
0R1792
1.8kR1777
1.8kR1776
C1726
IC B/D
R1780
0
R1793
0
R1796
10k
C1727
(TYPE-11) (TYPE-12)
0.01
(1.3) (3.2)
321
GND
NOISE
VOUT
(5)
0.22
IC1706
+5V REGULATOR
IC1706
TK11150CSCL-G
CONT
VIN
54
(8) (0)
C1728
0.22
12 18
Q1702
RT1N141C-TP-1
R1802
0
R1803
220
D1710
MA2J1110GLS0
(3.2)
1311
R1799
0
R1804
27k
(3.2)
Q1703
2SC4154TP-1EF
R1811
(3.2)
(0)
R1810
0
R1813
0
10k
Q1702-1705
CEC DATA SWITCH
(3.2)
(2.8)
(2.7)
(2.7)
Q1704
2SC4154TP-1EF
R1805
10k
R1809
R1807
22k
1k
(1.7)
R1808
C1732
22k
0.1
FL1700
EMI
(2.8)
Q1705
2SA1602TP-1EF
G
SCL
SDA
+5V_POWER
GND
CEC
SW+8V
SW+3.3V
E3.3V
CEC_RX_IN
CEC_TX_OUT
53
MAIN
BOARD
(10/11)
(Page 42)
54
MAIN
BOARD
(2/11)
(Page 34)
33
MAIN
BOARD
(3/11)
(Page 35)
HCD-X10
4343
Page 44
HCD-X10
6-19. PRINTED WIRING BOARD – MAIN Section (1/2) (TYPE-11) –
1 2 3 4 5 6 7 8 9 10 11 12
A
B
C
D
E
F
G
MAIN BOARD (COMPONENT SIDE)
R1752
R1724
CN1701
HDMI
OUT
Q1702
R1805
D1710
R1810
R483
R484
R485
CN410
DMPORT
2
R439
R452
R471
CN409
DMPORT
1
C1732
BCE
Q1703
1
18
1
18
19
1
FL1703
R1808
R1804
BCE
C420
C439
R454
C448
R469
C419
R1776
60
R1777
C1712
L1703
61
L1702
L1701
80
L1700
1
C1711
+
R1761
C1718
Q1704
BCE
+
R1807
C1717
R1809
Q1705
C433
C438
C427
C408
C407
C447
C446
C406
FL1702
C409
+
+
+
R448
+
+
+
+
+
+
+
C449
C421
BCE
IC1701
C1716
+
FL1701
C1721
+
R446
C475
C476
+
R1728
R1720
C430
+
+
C1705
41
C1704
20
R1714
+
R629
C477
C620
IC605
R630
17
40
C1701
21
R1730
R1725
R1715
R1712
R1717
Q405
C441
R443
L401
C478
++
+
+
CN502 (US, CND)
CN504 (AEP, UK)
15
48
49
64
1
+
C1703
FL1700
E
C
B
C443
+
C470
L602
C628
C626
5
C624
1845184
C613
C621
C622
R615
R612
IC1702
R1708
R460
R455
R459
R468
C465
+
C466
+
C625
B
R677
R624
1
EC
R492
R409
C623
1
X1700
Q603
33
16
+
R616
R1703
R402
R479
C473
L601
C627
32
R1731
17
+
C404
+
C405
+
(US, CND)
R695
IC604
19
17
R1132
R1729
C1706
(AEP, UK)
(US, CND)
R1727
R401
C474
+
C403
C464
R662
R663
R664
CN501 (US, CND)
CN503 (AEP, UK)
R1716
C1197
C1196
IC443
R661
R660
IC1104
1
4
RB1112
RB1111
RB1109
R742
R722
R737
+
R739
R740
FB1105FB1106
RB1107
RB1102
RB1106
RB1105
R1211
RB1104
RB1103
R1220
R1215
R1223
(AEP, UK)
R1187
R1186
FB1113
IC772
C705
+
C724
C727
C774
R741
C1184
RB1108
128
129
RB1101
85
FB1102
RB1100
C1171
R1159
IC1105
192
193 256
R1156
R1178
R1162
R1166
FB1114
R754
1
R763
8
R757
R723
R728
C722
24
IC702
C723
C720
CN505
R749
C752
R708
R771
C721
+
FB702
R724
13
R640
R1175
R727
48
R1172
16
9
R762
FB751
R725
R713
12
1
R726
L703
R642
R1158
R758
IC704
R760
R751
R752
R761
R759
R721
R70
R709
C719
C716
R718
R719
R778
R50
C709
L702
R756
R786
R730
R732
R733
C725
C751
R753
R755
25
36
R1182
37
R734
C1195
++
R1191
C1194
1
54
IC1109
27
R790
R780
R781
+
C717
C463
+
C462
13
R607
R608
1
115
C1188
C1187
C706
L701
RB1110
R1207
R1204
C718
C708
+
28
R1214
16 9
18
C707
X701
C775
R1157
C002
R1195
R1194
R1196
C1161
+
C52
C56
X1100
+
+
IC1102
R1200
R1197
R1137
C1163
X1
R023
C4
C23
1
C26
C28
C32
C33
C35
C36
C40
36
R12
: Uses unleaded solder.• See page 32 for Circuit Boards Location.
R1332
C1308
R1327
R552
C615
C614
R1331
R549
30
51
R550
C525
IC504
R584
541
FB505
+
C529
R1334
R1333
C1317
37
24
R517
C506
R536
IC501
C609
IC603
C612
C524
+
3
C514
C538
C533
36
25
C517
C1322
C1319
C522
X501
C518
C1320
IC503
C515
R591
R593
+
+
C1321
+
C1318
541
Q503
R501
R658
FB503
FB510
R502
+
C521
E
C
B
R527
5
1
IC601
FL501
R557
R656
C610
C611
C523
3
D501
R524
80
1
R595
R657
R659
R634
R522
R561
100
R676
C604
C608
R519
81
R639
+
R556
R563
C520
R542
C507
C508
C1332
R1335
R1347
C1331
R562
R671
C503
R514
R513
R512
R511
C502
R509
R510
R505
C603
R643
R535
R533
R526
R587
FB509
+
R633
C602
D601
R635
R651
+
R530
R503
C601
R632
5
1
IC602
15
C607
C606
R655
C501
R576
R652
C619
R577
R654
R675
R674
C605
R653
G
S
D
C536
+
C510
R1337
R1336
R1339
R1346
Q504
+
R1338
C1323
C1324
6
CN1300
1
1
CN506
17
11
CN507
1
OPTICAL
PICK-UP BLOCK
KHM-310CAA
KHM-313CAA
H1
P-SW
BOARD
CN100
(Page 57)
J1
DISPLAY
BOARD
CN801
or
(1/2)
(Page 62)
FB502
+
FL503
R1317
R1321
R1322
R1
C531
1
R4
R7
FB508
C1311
C1309
R1314
R1323
R1318
48
48
1
IC1300
13
12
31
R515
+
C58
R2
R14
5
C59
C65
C68
5
C69
1
C72
D502
+
C528
FB506
D504
C532
+
C71
R9
+
FL502
+
FB507
C535
+
+
R636
50
C519
R554
R534
FB501
C1107
R1122
C1112
C1121
314
C1138
FB1100
65
5
R1121
C1101
R1127
C1136
64
C1100
Q1100
R1111
R1101
G2 S2D1
R1108
D2
G1S1
R1106
IC1103
+
C1120
+
C1118
+
C1116
1
C1160
+
C001
R30
R35
C16
R29
C10C11
C12C14
C17
C7
C9
109144
108
IC1
73
C39
7237
C45
C46
C47C48C49
C50
C51
R67
R66
R65
R11
1
C1126
+
3
+
C1109
+
C1105
C66
+
C22
C24
C18
C25
C27
C29
C30
C31
R53
C34
C37
C44
C53
R604
R605
R42
IC5
R44
IC9
C526
+
RB601RB602RB603
R579
H
HCD-X10
(Page
48)
AV-001
BOARD
CN400
(US, CND) (AEP, UK) (US, CND) (AEP, UK) (US, CND) (AEP, UK)
• Semiconductor Location
Ref. No. Location
D501 C-10
D502 F-8
D504 F-9
D601 F-10
D1710 C-1
Ref. No. Location
IC1 F-7
IC5 E-8
IC9 F-8
IC443 F-4
A1
D1
(Page
52)
AV-002
BOARD
CN401
(Page
48)
AV-001
BOARD
CN301
B1
E1
(Page
52)
AV-002
BOARD
CN301
(Page
58)
D IN-001
BOARD
CN2001
F1
G1
(Page
60)
D IN-002
BOARD
CN2001
R602
R601
R603
Ref. No. Location Ref. No. Location Ref. No. Location Ref. No. Location Ref. No. Location Ref. No. Location
IC501 D-10
IC503 C-10
IC504 G-9
IC601 F-10
IC602 G-10
IC603 F-10
IC604 G-3
IC605 G-2
IC702 F-5
IC704 E-5
IC772 E-5
IC1102 B-7
IC1103 C-8
IC1104 B-6
IC1105 C-6
IC1109 B-4
IC1300 B-9
IC1701 B-2
IC1702 C-3
Q405 D-3
Q503 C-10
Q504 E-11
Q603 G-3
Q1100 B-8
Q1702 C-1
Q1703 C-1
Q1704 C-1
Q1705 C-1
4444
1-872-739-
11
Note: In type-11 and type-12, the WIRE (FLA T TYPE) (11 CORE)
connected with CN507 on the MAIN board is different.
Replace it for the WIRE (FLAT TYPE) (11 CORE) that is
sure to suit each type when you replace the WIRE (FLAT
TYPE) (11 CORE).
Refer to “NO TE OF REPLACING THE WIRE (FLAT TYPE)
(11 CORE) (CN507 ON THE MAIN BOARD – CN801 ON
THE DISPLA Y BOARD)” (page 7) in servicing notes for the
combination of the WIRE (FLAT TYPE) (11 CORE).
Page 45
6-20. PRINTED WIRING BOARDS – MAIN Section (2/2) (TYPE-11) –
1 2 3 4 5 6 7 8 9 10 11
A
MAIN BOARD
(CONDUCTOR SIDE)
• See page 32 for Circuit Boards Location.
OPTICAL PICK-UP BLOCK
(KHM-310CAA or KHM-313CAA)
(2/2)
HCD-X10
: Uses unleaded solder.
(NC)
123
CN1102
224
C1312
R1320
R548
R547
R582
C1314
R1311
C1313
C1310
R1319
R558
R1306
C1302
R1307
R1312
C1304
R1313
R1316
R644
C1303
R1305
C1305
R1315
R1310
R1309
R1308
R1304
R1113
BCE
Q1101
C1123
R1123
C1125
C1110
R1103
R1120
R1119
C1E1B1B2E2
Q1102
C2
R1110
R1116
R1117
R1118
IC1101
R10
5
CN1301
B
1
C1315
R1348
R1326
R1325
C
R539
(US, CND)
R523
R525
R731
D
R506
R504
R581
R638
R665
C511
4
C509
C516
3
R617
R666
1
5
R1115
R1100
R1104
C1104
C1106
R1105
R1107
R1114
R1109
C1108
R1124
R1112
C1111
1
24
C1117
C1115
45
13
C1127
C1137
C1122
FB1101
IC1100
C1124
C1119
C1129
C1130
C1131
C1128
R1130
C1133
R1129
C1139
C1146
C1144
R1131
C1143
C1147
C1135
C1134
C1149
C1141
C1150
C1132
C1157
C1151
C1148
C1154
C1152
C1153
R1128
C1162
R1135
C1156
R1139
R1143
48
R1171
R1147
25
C1167
FB1103
C1165
C1159
R1134
64
13
R1142
IC1107
R1170
R1149
R1146
R1151
R1138
R1169
R1173
R1152
R1165
C1168
C1166
FB1104
R1102
R1167
R1179
R1153
C1170
R1148
FB1115
R1221
C1174
C1172
FB1107
C1173
R1125
R1183
R1188
R1199
R1201
FB1108
R1126
R1192
C1182
C1181
C1180
C1179
C1178
R787
C1175
C1183
FB1109
FB1110
C1190
FB1111
C1191
R1213
FB1112
C1193
C1192
R1216
R1218
C1189
R1217
R1141
R1144
C1158
13
54
IC1108
RB1114
RB1113
R1140
IC502
C617
E
F
R670
R667
R669R668
C616
C618
R36
R24
C13
R13
R32
R47
R48
R51
R52
R60
R54
R58
R59
C15
C8
R26
R25
R3
C70
Q1
E
C
B
R92
R8
C62
R16
R18
R20
R15
R17
R6
R28
R27
IC6
1345
C63
R91
R49
45
IC4
13
R34
R90
R41
R43
R45
C711
C710
R736
R716
C43
R735
R738
D702
D701
CN1101
16
R1747
R609
Q409
IC401
R610
R1718
B
C
E
R496
R406
R1744
C1708
R1726
C483
B
C
E
R498
Q406
R405
85
14
R611
R1711
Q408
B
E
R490
C
R1732
C481
R679
Q1700
R1771
R1758
R410
R494
R408
R489
R1707
R497
B
C
E
R641
R1706
G
D
S
R1763
R1734
R1740
R1736
R466
IC412
Q407
R491
R495
R1772
R465
Q410
16 9
1
C482
G
113
CN515
21
CN514
1
R606
R673
R1774
SGD
Q1701
R1770
R1762
C1702
7
BEC
R411
IC441
R414
R493
R613
R614
R458
R407
C1728
1
148
Q411
R456
C1727
R1704
R457
BEC
R463
R500
R499
R470
R1780
R1733
R412
8
IC442
R480
(US, CND)
IC1706
C1726
354
R1793
1
R1796
R1735
R1719
R1713
C1707
R1710
R1721
R1722
C1719
IC1703
IC1705
R1788
C1724
C1722
R1786
85
14
R488
85
1
R451
C469
R631
R622
85
1
514
3
R472
R473
R487
R440
R441
R450
R447
14
85
R1746
R1743
C1720
R1768
R1749
R1750
R1767
C1713
C1715
R1765
R1769
R1760
4
IC1707
R1779
C1729
C1723
R1782
R474
R442
IC440
R453
R486
R445
R461
IC403
4
R467
13
CN412
4
R1800
R1792
51
43
R1798
C1731
R1794
C1730
R1766
IC1704
135
R1801
R1790
C1714
R1802
R1811
R1799
R1803
R1813
1-872-739-
A001
11
HCD-X10
H
• Semiconductor Location
Ref. No. Location
I
D701 E-7
D702 E-7
IC4 F-6
IC6 F-6
IC401 E-9
Ref. No. Location
IC403 E-10
IC412 D-10
IC440 E-10
IC441 E-10
IC442 F-10
IC502 E-2
K1
P-AMP BOARD
CN902
L1
P-AMP BOARD
CN3006
(Page 65) (Page 64)
Ref. No. Location Ref. No. Location Ref. No. Location Ref. No. Location
IC1100 B-6
IC1101 D-5
IC1107 D-6
IC1108 C-8
IC1703 C-10
IC1704 B-11
IC1705 C-10
IC1706 B-10
IC1707 C-11
Q1 F-5
Q406 E-9
Q407 E-9
Q408 D-9
Q409 D-9
Q410 E-10
Q411 E-10
Q1101 B-4
Q1102 C-4
Q1700 B-9
Q1701 B-9
MS-203 BOARD
1
2
CN001
5
4
MM
M301
DISC TRAY
OPEN/CLOSE
S001-1
DISC TRAY
OPEN DETECT
S001-2
DISC TRAY
CLOSE DETECT
S001
–1
–2
1-861-327-
12, 21
P-AMP BOARD
M1
(Page 65)
CN3004
4545
Page 46
HCD-X10
6-21. PRINTED WIRING BOARD – MAIN Section (1/2) (TYPE-12) –
1 2 3 4 5 6 7 8 9 10 11 12
A
B
C
D
E
F
G
MAIN BOARD (COMPONENT SIDE)
R1752
R1724
CN1701
HDMI
OUT
Q1702
R1805
D1710
R1810
R483
R484
R485
CN410
DMPORT
2
R439
R452
R471
CN409
DMPORT
1
C1732
BCE
Q1703
1
18
1
18
19
1
FL1703
R1808
R1804
BCE
C420
C439
R454
C448
R469
C419
R1776
60
R1777
C1712
L1703
61
L1702
L1701
80
L1700
1
C1711
+
R1761
C1718
Q1704
BCE
+
R1807
C1717
R1809
Q1705
C433
C438
C427
C408
C407
C447
C446
C406
FL1702
C409
+
+
+
R448
+
+
+
+
+
+
+
C449
C421
BCE
IC1701
C1716
+
FL1701
C1721
+
R446
C475
C476
+
R697
R1728
R1720
C430
+
+
R696
C1705
41
C1704
20
R1714
+
R629
C477
IC605
C620
R630
17
40
C1701
21
R1730
R1725
R1715
R1712
R1717
Q405
C441
R443
L401
C478
++
+
+
CN502 (US, CND)
CN504 (AEP, UK)
15
48
49
64
1
+
C1703
FL1700
E
C
B
C443
+
C470
L602
C628
C626
5
C624
1845184
C613
C621
C622
R615
R612
IC1702
R1708
R460
R455
R459
R468
C465
+
C466
+
C625
B
R677
R624
1
EC
R492
R409
C623
1
X1700
Q603
33
16
+
R616
R1703
R402
R479
C473
L601
C627
32
R1731
17
+
C404
+
C405
+
(US, CND)
R695
IC604
19
17
R1132
R1729
C1706
(AEP, UK)
(US, CND)
R1727
R401
C474
+
C403
C464
R662
R663
R664
CN501 (US, CND)
CN503 (AEP, UK)
R1716
IC443
R661
R660
• See page 32 for Circuit Boards Location.
IC1104
1
4
RB1112
RB1111
RB1109
R742
R722
R737
+
R739
R740
FB1105FB1106
RB1107
RB1102
RB1106
RB1105
R1211
RB1104
RB1103
R1220
R1215
R1223
(AEP, UK)
R1187
R1186
FB1113
IC772
C705
+
C724
C727
C774
R741
C1184
RB1108
128
129
192
193 256
R1182
FB1114
R754
C751
1
R763
R756
8
R753
R749
R757
R755
R786
R723
R730
R732
R728
R733
C722
C725
24
25
IC702
36
37
C723
R734
C720
CN505
RB1101
C752
FB702
R724
R708
R771
13
C721
+
R640
R1178
R1175
R727
48
R1172
16
9
R762
FB751
R725
R713
12
1
R726
L703
R642
85
R1166
FB1102
RB1100
R1156
R1162
R1158
R758
IC704
R760
R751
R752
R761
R759
R721
R70
R709
C719
C716
R718
R719
C1171
R778
R50
C709
C1195
++
R1191
1
C1194
C1197
C1196
C463
IC1109
27
R790
R780
R781
+
C717
+
C462
13
R607
R608
1
115
C1188
C1187
C706
L701
RB1110
R1207
R1204
C718
C708
+
54
28
R1214
16 9
18
C707
X701
C775
R1195
R1194
R1196
R1159
R1157
IC1105
X1100
C1161
C002
+
L702
C52
C56
IC1102
R1200
R1197
R1137
R023
C4
C23
1
C26
C28
C32
C33
C35
C36
C40
36
+
R12
+
C1163
X1
R35
C51
: Uses unleaded solder.
C1107
R1122
C1112
5
314
C1121
C16
C1138
C001
FB1100
65
C1160
+
R1121
R1127
C1136
64
C1120
C1118
C1116
1
R30
R29
C7
C10C11
C12C14
C17
109144
IC1
C45
C46
C47C48C49
C50
R67
R66
R11
R1332
C1308
R1327
R552
C615
C614
R1331
R549
30
51
R550
C525
IC504
R584
541
FB505
+
C529
R1334
R1333
C1317
37
24
R517
C506
IC501
IC603
C612
C524
+
3
C514
C538
C533
36
25
R536
C517
C609
C1322
C1319
C522
X501
C518
C1320
IC503
C515
R591
R593
+
+
C1321
+
C1318
541
Q503
R501
R658
FB503
FB510
R502
+
C521
E
C
B
R527
5
1
IC601
FL501
R557
R656
C610
C611
C523
3
D501
R524
80
1
R595
R657
R659
R634
R522
R561
100
R676
C604
C608
R519
81
R639
+
R556
R563
C520
R542
C507
C508
C1332
R1335
R1347
C1331
R562
R671
C503
R514
R513
R512
R511
C502
R509
R510
R505
C603
R643
R535
R533
R526
R587
FB509
+
R633
C602
D601
R635
R651
+
R530
R503
C601
R632
5
1
IC602
15
C607
C606
R655
C501
R576
R652
C619
C510
R577
R654
R675
R674
C605
R653
G
S
D
C536
+
R1337
R1336
R1339
R1346
Q504
+
R1338
C1323
C1324
6
CN1300
1
1
CN506
17
11
CN507
1
OPTICAL
PICK-UP BLOCK
KHM-310CAA
KHM-313CAA
(1/2)
H2
P-SW
BOARD
CN100
(Page 57)
J2
DISPLAY
BOARD
CN801
or
(Page 62)
FB502
+
FL503
R1317
R1321
R1322
C1311
C1309
RB601RB602RB603
C526
R579
R1108
R42
R44
IC9
R1314
R1323
R1318
48
48
1
IC1300
13
12
31
R1
R515
+
C58
R2
R14
5
C59
C65
1
R4
C68
R7
5
C69
1
C72
D502
+
+
C528
C531
FB508
FB506
D504
C532
+
C71
R9
+
FL502
+
FB507
C535
+
+
R636
50
C519
R554
R534
FB501
R1101
C1100
C1101
Q1100
R1111
G2 S2D1
D2
G1S1
R1106
IC1103
+
+
+
C9
108
73
C39
7237
R65
1
C1126
+
3
+
C1109
+
C1105
C66
+
C22
C24
C25
C27
C29
C30
C31
C34
C37
C44
C53
R604
R605
IC5
C18
R53
H
HCD-X10
• Semiconductor Location
Ref. No. Location
D501 C-10
D502 F-8
D504 F-9
D601 F-10
D1710 C-1
Ref. No. Location
IC1 F-7
IC5 E-8
IC9 F-8
IC443 F-4
G2
(Page
60)
D IN-002
BOARD
CN2001
(Page
48)
AV-001
BOARD
A2
CN400
(US, CND) (AEP, UK) (US, CND) (AEP, UK) (US, CND) (AEP, UK)
D2
AV-002
BOARD
CN401
(Page
52)
(Page
48)
AV-001
BOARD
CN301
B2
E2
(Page
52)
AV-002
BOARD
CN301
(Page
58)
D IN-001
BOARD
CN2001
F2
Ref. No. Location Ref. No. Location Ref. No. Location Ref. No. Location Ref. No. Location Ref. No. Location
IC501 D-10
IC503 C-10
IC504 G-9
IC601 F-10
IC602 G-10
IC603 F-10
IC604 G-3
IC605 G-2
IC702 F-5
IC704 E-5
IC772 E-5
IC1102 B-7
IC1103 C-8
IC1104 B-6
IC1105 C-6
IC1109 B-4
IC1300 B-9
IC1701 B-2
IC1702 C-3
Q405 D-3
Q503 C-10
Q504 E-11
Q603 G-3
Q1100 B-8
4646
R601
R602
R603
Q1702 C-1
Q1703 C-1
Q1704 C-1
Q1705 C-1
1-872-739-
12
Note: In type-11 and type-12, the WIRE (FLA T TYPE) (11 CORE)
connected with CN507 on the MAIN board is different.
Replace it for the WIRE (FLAT TYPE) (11 CORE) that is
sure to suit each type when you replace the WIRE (FLAT
TYPE) (11 CORE).
Refer to “NO TE OF REPLACING THE WIRE (FLAT TYPE)
(11 CORE) (CN507 ON THE MAIN BOARD – CN801 ON
THE DISPLA Y BOARD)” (page 7) in servicing notes for the
combination of the WIRE (FLAT TYPE) (11 CORE).
Page 47
6-22. PRINTED WIRING BOARDS – MAIN Section (2/2) (TYPE-12) –
1 2 3 4 5 6 7 8 9 10 11
A
MAIN BOARD
(CONDUCTOR SIDE)
• See page 32 for Circuit Boards Location.
OPTICAL PICK-UP BLOCK
(KHM-310CAA or KHM-313CAA)
(2/2)
HCD-X10
: Uses unleaded solder.
(NC)
123
CN1102
224
C1312
R1320
R548
R547
R582
C1314
R1311
C1313
C1310
R1319
R558
R1306
C1302
R1307
R1312
C1304
R1313
R1316
R644
C1303
R1305
C1305
R1315
R1310
R1309
R1308
R1304
R1113
BCE
Q1101
C1123
R1123
C1125
C1110
R1103
R1120
R1119
C1E1B1B2E2
Q1102
C2
R1110
R1116
R1117
R1118
IC1101
R10
5
CN1301
B
1
C1315
R1348
R1326
R1325
C
R539
(US, CND)
R523
R525
R731
D
R506
R504
R581
R638
R665
C511
4
C509
C516
3
R617
R666
1
5
R1115
R1100
R1104
C1104
C1106
R1105
R1107
R1114
R1109
C1108
R1124
R1112
C1111
1
24
C1117
C1115
45
13
C1127
C1137
C1122
FB1101
IC1100
C1124
C1119
C1129
C1130
C1131
C1128
R1130
C1133
R1129
C1139
C1146
C1144
R1131
C1143
C1147
C1135
C1134
C1149
C1141
C1150
C1132
C1157
C1151
C1148
C1154
C1152
C1153
R1128
C1162
R1135
C1156
R1139
R1143
48
R1171
R1147
25
C1167
FB1103
C1165
C1159
R1134
64
13
R1142
IC1107
R1170
R1149
R1146
R1151
R1138
R1169
R1173
R1152
R1165
C1168
C1166
FB1104
R1102
R1167
R1179
R1153
C1170
R1148
FB1115
R1221
C1174
C1172
FB1107
C1173
R1125
R1183
R1188
R1199
R1201
FB1108
R1126
R1192
C1182
C1181
C1180
C1179
C1178
R787
C1175
C1183
FB1109
FB1110
C1190
FB1111
C1191
R1213
FB1112
C1193
C1192
R1216
R1218
C1189
R1217
R1141
R1144
C1158
13
54
IC1108
RB1114
RB1113
R1140
IC502
C617
E
F
R670
R667
R669R668
C616
C618
R36
R24
C13
R13
R32
R47
R48
R51
R52
R60
R54
R58
R59
C15
C8
R26
R25
R3
C70
Q1
E
C
B
R92
R8
C62
R16
R18
R20
R15
R17
R6
R28
R27
IC6
1345
C63
R91
R49
45
IC4
13
R34
R90
R41
R43
R45
C711
C710
R736
R716
C43
R735
R738
D702
D701
CN1101
16
R1747
R609
Q409
IC401
R610
R1718
B
C
E
R496
R406
R1744
C1708
R1726
C483
B
C
E
R498
Q406
R405
85
14
R611
R1711
Q408
B
E
R490
C
R1732
C481
R679
Q1700
R1771
R1758
R410
R494
R408
R489
R1707
R497
B
C
E
R641
R1706
G
D
S
R1763
R1734
R1740
R1736
R466
IC412
Q407
R491
R495
R1772
R465
16 9
G
113
CN515
21
CN514
1
R606
R673
R1762
Q410
1
C482
R613
R1774
SGD
Q1701
R1770
C1702
7
R458
BEC
R411
IC441
R407
R414
R493
R614
C1728
1
148
Q411
R456
R1780
C1727
R1704
R457
BEC
R463
R500
R499
R470
R1733
R412
8
IC442
R480
(US, CND)
IC1706
C1726
354
R1793
1
R1796
R1735
R1719
R1713
C1707
R1710
R1721
R1722
C1719
IC1703
IC1705
R1788
C1724
R1786
85
14
R488
85
1
R451
R631
R622
85
1
514
C1722
R473
R487
R441
R450
14
85
C469
R1746
R1743
R1749
R1767
R1765
R1769
4
R1779
3
R1782
R474
R472
IC440
R453
R445
R440
IC403
4
R447
13
CN412
4
C1720
R1768
R1800
R1792
R1750
C1713
C1715
R1760
IC1707
C1729
C1723
R442
R486
R461
R467
IC1704
135
R1790
C1714
R1798
C1731
51
43
R1794
C1730
R1766
R1801
R1802
R1811
R1799
R1803
R1813
1-872-739-
A001
12
HCD-X10
H
• Semiconductor Location
Ref. No. Location
D701 E-7
I
D702 E-7
IC4 F-6
IC6 F-6
IC401 E-9
Ref. No. Location
IC403 E-10
IC412 D-10
IC440 E-10
IC441 E-10
IC442 F-10
IC502 E-2
K2
P-AMP BOARD
CN902
(Page 65)
L2
P-AMP BOARD
CN3006
(Page 64)
Ref. No. Location Ref. No. Location Ref. No. Location Ref. No. Location
IC1100 B-6
IC1101 D-5
IC1107 D-6
IC1108 C-8
IC1703 C-10
IC1704 B-11
IC1705 C-10
IC1706 B-10
IC1707 C-11
Q1 F-5
Q406 E-9
Q407 E-9
Q408 D-9
Q409 D-9
Q410 E-10
Q411 E-10
Q1101 B-4
Q1102 C-4
Q1700 B-9
Q1701 B-9
MS-203 BOARD
1
2
CN001
5
4
MM
M301
DISC TRAY
OPEN/CLOSE
S001-1
DISC TRAY
OPEN DETECT
S001-2
DISC TRAY
CLOSE DETECT
S001
–1
–2
1-861-327-
12, 21
M2
P-AMP BOARD
CN3004
(Page 65)
4747
Page 48
HCD-X10
• Semiconductor
Location
Ref. No. Location
IC300 C-1
IC301 D-6
IC302 E-6
IC400 C-4
IC401 C-3
IC402 E-4
Q300 D-7
Q301 D-7
Q302 C-1
6-23. PRINTED WIRING BOARD – AV-001 Board (Component Side) (US and Canadian models) –
1 2 3 4 5 6 7
A
AV-001 BOARD (COMPONENT SIDE)
B
FB302
BCE
Q302
C
R309
R342
IC300
5
8
R339
C322
14
C324
R343
R341
C415
R402
C413
C402
R408
32
1
IC401
C417
C418
IC400
R415
14
17
16
C419
58
C409
R416
R409
D
R410
R411
C424
5
1
C425
R414
R413
IC402
E
• See page 32 for Circuit Boards Location.
R423
R424
R417
R425
R421
R422
CN400
C307
17
16
2
1
C308
R323R325 R327 R329R331 R333
C330
R311
C327
16
1
IC302
5
8
R313R314 R315
IC301
14
: Uses unleaded solder.
R312
C305C306
9
8
R310
C303C304
Q300
BEBEC
Q301
C
CN301
17
16
2
1
(TYPE-11)
A1
MAIN
BOARD
CN502
A2
MAIN
BOARD
CN502
(TYPE-12)
(TYPE-11)
B1
MAIN
BOARD
CN501
B2
MAIN
BOARD
CN501
(TYPE-12)
(Page 44)
(Page 46)
(Page 44)
(Page 46)
HCD-X10
F
1-872-741-
11
(11)
4848
Page 49
HCD-X10
6-24. PRINTED WIRING BOARD – AV-001 Board (Conductor Side) (US and Canadian models) –
1 2 3 4 5 6 7 8 9
J301 J402
A
AV-001 BOARD
(CONDUCTOR SIDE)
B
C
D
E
SAT/
TV
CABLE
AUDIO
AUDIO
IN R
IN R
R303 R304R305 R306 R307
C311 C312
R346
R347
R350
C313
SAT/
TV
CABLE
AUDIO
AUDIO
IN L
IN L
R308
C314 C315C316
R322 R324R326R328 R330R332
C329
C333
C332
C331
SAT/
CABLE
VIDEO
IN
R400
VIDEO
AUDIO
IN R
COMPONENT
VIDEO OUT
(DVD ONLY)
Y
C400
C427
C401
VIDEO
AUDIO
IN L
L400
• See page 32 for Circuit Boards Location.
J401
COMPONENT
VIDEO OUT
(DVD ONLY)
B
P
R405
C410
/ C
B
C405
C408
VIDEO
VIDEO
IN
R406
C420
COMPONENT
VIDEO OUT
(DVD ONLY)
R
/ C
P
R401
C406
C421 C422C423
R
R407
C407
R400
D451
R403
S VIDEO
(DVD ONLY)
4
3
D452
C403
C404
R404
C412
L401
J400
MONITOR OUT
21
C325
: Uses unleaded solder.
VIDEO
R300
FB301
R335
C318
C320
R337
R317
C326
R344
R345
C328
C309
CN300
9
28
1
L300
C300
C301
J300
A.CAL
MIC
ECM AC2
R320
R319
R301
TUNER
(FM/AM)
• Semiconductor
Location
Ref. No. Location
D451 C-6
D452 C-6
FM 75Ω
COAXIAL
AM
ANTENNA
HCD-X10
R302
F
1-872-741-
11
(11)
4949
Page 50
HCD-X10
6-25. SCHEMATIC DIAGRAM – AV-001 Board (1/2) (US and Canadian models) –
(1/2)AV-001 BOARD
A
J400
4
1
(2/2)
B/CB
R/CR
1
3
2
(CHASSIS)
J401
VIDEO_L_IN
VIDEO_R_IN
J402
(CHASSIS)
C402
R402
0.1
75
R408
C403
1000
6.3V
C407
100
16V
C401
10
50V
C400
50V
10k
25
23
22
21
10
D451
STZ6.8N-T146
6P
R401
75
1P
R400
75
R405
75
R406
R403
75
R404
75
C404
1000
6.3V
STZ6.8N-T146D452
C405
1000
6.3V
75
C406
100
16V
R407
75
S VIDEO
(DVD ONLY)
MONITOR
OUT
VIDEO
B
COMPONENT VIDEO OUT
C
D
E
(DVD ONLY) Y
VIDEO AUDIO IN
R
COMPONENT VIDEO OUT
(DVD ONLY) P
VIDEO AUDIO IN
L
COMPONENT VIDEO OUT
(DVD ONLY) P
VIDEO VIDEO IN
AV-001
BOARD
(Page 51)
SAT/CABLE
VIDEO IN
F
26
(2.3) (5.1)
(0.1)
(1.8)
(1.7)
24
(1.7)
(2.3)
(2.3)
(2.2)
(3.1)
(2.1)
(3.2)
• See page 71 for Waveforms. • See page 74 for IC Block Diagrams.
5
IC401
VIDEO AMP,
75
BH7868FS-E2
32
C OUT
S-DC OUT
31
30
VOUTa
29
VOUTb
28
GND
YOUTa
27
YOUTb
26
25
GND
CYOUTa
24
CYOUTb
23
22
GND
CbOUTa
21
CbOUTb
20
19
GND
CrOUTa
18
CrOUTb
17
NJM2235V(TE2)
1
IN1
2
SW1
3
IN2
SW2 IN3
Ω
IC401
IC400
DRIVER
MUTE1
CVBS IN
YC MIX
CYIN
Cb IN
MUTE2
GND
OUT
VDD
Vcc1
BIAS
CLP
GND
CrIN
Vcc2
IC B/D
1
(0.1)
S1
2
S2
3
(2.2)
CIN
4
(3.2)
5
(1.7)
6
(5.1)
7
(1.7)
YIN
8
(2.2)
9
10
(1.7)
11
12
(2.2)
13
(3.2)
14
(2.2)
15
(5.1)
16
C412
470
10V
L401
10uH
C419
C415
0.1
C422
C413
0.01
C423
C417
C418
1
IC400
VIDEO SELECT
8
(1.9)
7
(5.2)
6
(2.6)
54
R409
C408
10
50V
0
78
R421
1k
R416
0
50V
1
R415
R423
150
R424
150
C409
0.01
C410
100
16V
R417
0
L400
10uH
R425
150
0
10
100C421
C420
0.01
1
1
IC B/D
50V
16V
R410
100k
IC402
GND
C425
0.47
(6.3)
1012
IC B/D
EN
IN
12345
(6.3)
R414
22k
R413
10k
9643
IC402
+5V REGULATOR
NJM2887DL3
OUT
FB
(1.3)
(5.2)
300k
R411
C427
C424
47
0.01
16V
11
R422
12
0
CN400
17P
Y
17
VGND
16
C
15
VGND
14
V
13
VGND
12
Y/G
11
VGND
10
CB/B
9
12V
8
CR/R
7
WIDE
6
V_SEL3
5
V_SEL2
4
V_SEL1
3
V_SEL0
2
E6V
1
A
MAIN
BOARD
(3/11)
CN502
(Page
35)
HCD-X10
5050
Page 51
HCD-X10
6-26. SCHEMATIC DIAGRAM – AV-001 Board (2/2) (US and Canadian models) –
5 17
A
J300
A.CAL MIC
B
ECM-AC2
(2/2)AV-001 BOARD
C
D
E
J301
VIDEO_R_IN
VIDEO_L_IN
4P
R303
220
R310
220k
R311
R304
220
220k
R305
220
R312
220k
R313
R306
R307
R308
220k
220
220
R314
220k
R315
220
220k
C303
220p
C304
220p
C305
220p
C306
220p
C307
220p
C308
220p
TV AUDIO IN
L
SAT/CABLE
F
AUDIO IN L
TV AUDIO IN
SAT/CABLE
AUDIO IN R
R
G
1
AV-001
BOARD
H
(1/2)
(Page 50)
• See page 74 for IC Block Diagrams.
78
R320
3.3k
R317
2.2k
FB301
FB302
R300
0
C309
22
50V
Q302
RT1N441C-TP-1
MIC DETECT SWITCH
R301
0
47k
47k
R322
C311
22
C312
22
C313
22
C314
22
C315
22
C316
22
R324
R319
1.2k
R309
0
47k
R326
47k
47k
R328
47k
R332
R330
964 15 163
C320
10
R337
50V
C318
R335
100k
C329
100
16V
100p
C327
0.01
1012
R339
470
IC301
R341
330
MC14052 BDR2
22k
4.6
4.6
4.6
Y0
Y2YY3
X
X1
X2
VDD
16 15 14 13 12 11 10 9
9
4.6
4.6
4.6
0
R342
4.6
4.6
+
+
-
GND
4321
4.6
4.6
C322
47p
4.64.6
Y1
INH
X3
X0
4.6
Q300
RT1N241C-TP-1
12
R344
4.7k
C325
100
16V
94.6
8765
VDD
IC300
NJM4558M-TE2
C324
10p
87654321
VEE
VSSB
A
0
0
0
IC300
R343
27k
3.2
RT1N241C-TP-1
INVERTERINVERTER
MIC AMP
Q301
C326
0.01
R345
4.7k
AUDIO SELECTOR
0
C328
IC B/D
IC301
R346
10k
R347
10k
16V
47
3.2
1311
4.6
4.6
4.6
+
+
-
GND
4321
4.6
4.6
14
C332
0.01
R350
0
C333
47
16V
C331
16V
100
C330
0.01
9
8765
VDD
IC302
NJM4558M-TE2
TUNED
CE
DI
CLK
DO
IC302
LINE AMP
CN301
17P
1
AGND
2
TUNER_L
3
9V
4
TUNER_R
5
AGND
6
TUNED
7
CE
8
DI
9
CLK
10
DO
11
A_SEL0
12
A_SEL1
13
MICSW
14
AGND
15
AD_L
16
AGND
17
AD_R
B
MAIN
BOARD
(3/11)
CN501
(Page
35)
HCD-X10
CN300
9P
1
TUNER_L
2
FM 75Ω
AM
COAXIAL
TUNER
(FM/AM)
I
ANTENNA
TUNER_R
A-GND
TUNED
9V
3
4
5
6
CE
7
DI
8
CL
9
DO
TUNED
CE
DI
CLK
DO
C301
C300
100
0.01
16V
R302
0
R323
10uHL300
47k
47k
47k
R327
R325
47k
47k
47k
R331
R333
R329
J
5151
Page 52
HCD-X10
• Semiconductor
Location
Ref. No. Location
D400 B-4
IC301 C-6
IC302 C-6
IC400 C-4
IC401 C-4
IC402 D-3
IC403 C-3
Q300 C-7
Q301 C-7
Q400 B-4
Q401 B-5
Q402 B-4
Q403 B-4
Q404 B-5
Q405 B-5
Q406 C-3
Q407 C-3
Q408 D-5
6-27. PRINTED WIRING BOARD – AV-002 Board (Component Side) (AEP and UK models) –
1 2 3 4 5 6 7
A
AV-002 BOARD (COMPONENT SIDE)
R413
R412
R411
R410
17
16
C430
C429
R426
D
B
Q406
R320
R318
32
1
IC403
17
16
C
C420
C423
C422
C421
CE
R424
BEBC
Q407
C418
32
1
C413
IC402
IC401
C428
R425
5
1
R428 R429
C436
C437
• See page 32 for Circuit Boards Location.
R407
R406
R408
R409
R414
CC
R415
IC400
R423
R405
Q404 Q405
BE
R436
BE
C
C
CN401
15
R430
14
2
1
B
C
Q408
E
D400
C411
BEBE
CC
Q400 Q401
BEBE
Q402Q403
14
58
R314
IC302
: Uses unleaded solder.
R306R307
R316
C321
16
1
5
8
C324
IC301
4
1
CN301
9
8
R334
R335
182
C303C304
BE
BECC
19
Q300
Q301
(TYPE-11)
D1
MAIN
BOARD
CN504
D2
MAIN
BOARD
CN504
(TYPE-12)
(TYPE-11)
E1
MAIN
BOARD
CN503
(Page 44)
(Page 46)
(Page 44)
HCD-X10
1
E
1-872-742-
(TYPE-12)
11
(11)
E2
MAIN
BOARD
CN503
(Page 46)
5252
Page 53
HCD-X10
6-28. PRINTED WIRING BOARD – AV-002 Board (Conductor Side) (AEP and UK models) –
1 2 3 4 5 6 7 8 9
J400
COMPONENT
SAT/
VIDEO OUT
CABLE
(DVD ONLY)
A
AUDIO
IN R
Y
SAT/
CABLE
AUDIO
IN L
COMPONENT
VIDEO OUT
(DVD ONLY)
B
/ C
B
P
SAT/
CABLE
VIDEO
IN
COMPONENT
VIDEO OUT
(DVD ONLY)
R
/ C
R
P
AV-002 BOARD
(CONDUCTOR SIDE)
C323
R404
C402
R435
R421
C408
R439
R437
R438
R420
C407
R422
R431
B
R303
C309
R317
R304
C310
R315
C
C325
D
C326
C327
• See page 32 for Circuit Boards Location.
CN400
EURO AV OUTPUT (TO TV)
D455
20
21
C405
D453
R418
C417
D454
C409
C439
C412
L400
C410
C406
R419
C434
D451
C403
R416
C414
C432
L401
C440
D452
C425
C404
R417
: Uses unleaded solder.
2
1
C401
R401
R403
C307C308
R319
L402
C431C433
R321
C424
R400
R402
C400
CN300
11
1
• Semiconductor
Location
Ref. No. Location
D451 B-5
D452 B-6
D453 B-5
D454 B-4
D455 A-5
CN302
1
C
4
10
2
MIC-002
BOARD
CN351
(Page 56)
TUNER
(FM/AM)
FM 75Ω
COAXIAL
AM
ANTENNA
HCD-X10
R338
L300
R302
C301
C300
E
11
1-872-742-
5353
(11)
Page 54
HCD-X10
6-29. SCHEMATIC DIAGRAM – AV-002 Board (1/2) (AEP and UK models) –
43
A
AV-002 BOARD (1/2)
VIDEO AMP,75Ω DRIVER
B
J400
COMPONENT VIDEO OUT
(DVD ONLY) Y
C
D
SAT/CABLE
AUDIO IN R
COMPONENT VIDEO OUT
(DVD ONLY) PB/C
SAT/CABLE
AUDIO IN L
COMPONENT VIDEO OUT
(DVD ONLY) P
SAT/CABLE VIDEO IN
B
R/CR
6P
R404
75
R420
R421
IC B/D
IC401
75
C407
1000
6.3V
C408
75
R422
C409
75
C402
5
IC401
BH7868FS-E2
C OUT
32
S-DC OUT
31
VOUTa
30
VOUTb
29
GND
28
YOUTa
27
26
YOUTb
GND
25
CYOUTa
24
CYOUTb
23
GND
22
CbOUTa
21
100
16V
100
16V
10
50V
CbOUTb
20
GND
19
CrOUTa
18
17
E
Q400
RT1P141C-TP-1
Q400,402
DVD SELECT
F
R409
R407
R406
2.2k
2.2k
2.2k
R408
R405
1k
22k
G
(2/2)
SAT/CABLE_L_IN
SAT/CABLE_R_IN
SCART_L_IN
SCART_R_IN
C440
1000p
CN400
23P
t
EURO
R400
AV OUTPUT
(TO TV)
1k
1
2
R401
C400
R402
220p
100k
C401
R403
220p
100k
1k
11
AV-002
H
I
BOARD
(Page 55)
Q401
RT1N441C-TP-1
WIDE SWITCH
RT1N441C-TP-1
R416
75
R417
75
R418
75
J
20
21
D452
D451
D454
STZ6.8N-T146
STZ6.8N-T146
STZ6.8N-T146
D455
STZ6.8N-T146
D453
STZ6.8N-T146
R419
75
K
• See page 74 for IC Block Diagrams.
78
L401
IC400
VIDEO SELECT
R412
330
IC B/D
10uH
C413
0.01
C417
470
10V
C418
0.01
C414
0.1
C432
0.01
C428
1
C429
1
C430
1
1
2
3
Q403
RT1P141C-TP-1
Q404
2SC3052EF-T1-LEF
R413
330
IC403
VIDEO AMP,75ΩDRIVER
IC403
BH7868FS-E2
CrOUTb
17
Vcc2
CrOUTa
18
CrIN
GND
19
MUTE2
CbOUTb
20
CbIN
CbOUTa
21
GND
GND
22
CYIN
CYOUTb
23
CLP
CYOUTa
24
BIAS
GND
25
YIN
YOUTb
26
YC MIX
YOUTa
27
CVBS IN
GND
28
MUTE1
VOUTb
29
CIN
VOUTa
30
S-DC OUT
31
C OUT
32
Vcc1
C434
100
16V
IC B/D
IC400
NJM2235V(TE2)
IN1
SW1
IN2
SW2 IN3
Q403,404,405
RGB SELECT
16
15
14
13
12
11
10
9
8
7
6
5
4
3
S2
2
S1
1
8
GND
7
OUT
6
VDD
54
MUTE1
CVBS IN
YC MIX
MUTE2
R410
Vcc1
BIAS
CYIN
GND
Cb IN
Vcc2CrOUTb
Q402
330
1
S1
2
S2
3
CIN
4
5
6
7
YIN
8
9
CLP
10
11
12
13
14
CrIN
15
16
D400
MA2J1110GLS0
R411
330
C403
1000
6.3V
C404
1000
6.3V
C405
1000
6.3V
C406
1000
6.3V
R415
220k
R414
96
1012
12
1311
14
IC B/D
IC402
+5V REGULATOR
IC402
NJM2887DL3
EN
IN
GND
OUT
FB
R426
300k
C439
R425
47
100k
16V
RT1N241C-TP-1
C412
100
C411
0.01
16V
R423
0
C410
10
50V
L400
10uH
47k
C424
470
10V
C423
C425
C420
0.01
RT1N441C-TP-1
C421
1
C422
1
1
0.1
Q405
C433
L402
10uH
R424
Q406
RT1N241C-TP-1
VIDEO MUTING
100
16V
C431
10
50V
10k
0.01
C436
C437
0.47
Q408
VIDEO MUTING
Q407
RT1N241C-TP-1
VIDEO MUTING
12345
R429
22k
R428
10k
R430
0
CN401
15P
0
R436
R437
R438
R439
R431
R435
150
150
150
100
V
15
VGND
14
Y/G
13
VGND
12
CB/B
11
12V
10
CR/R
9
1k
WIDE
8
V_SEL3
7
V_SEL2
6
V_SEL1
5
V_SEL0
4
E6V
3
RGB_SEL
2
TV_SEL
1
D
MAIN
BOARD
(3/11)
CN504
(Page 35)
HCD-X10
5454
Page 55
HCD-X10
6-30. SCHEMA TIC DIAGRAM – AV-002 Board (2/2) (AEP and UK models) –
5
A
(2/2)AV-002 BOARD
B
C
CN302
4P
4
MIC DET
SCART_R_IN
SCART_L_IN
SAT/CABLE_R_IN
SAT/CABLE_L_IN
TUNER_L
TUNER_R
RDS-CLOCK
RDS-DATA
MIC IN
AGND
TUNED
3
2
A9V
1
L300
10uH
R303
220
R304
220
CN300
11P
1
2
9V
3
4
GND
5
6
CE
7
DI
8
CLK
9
DO
10
11
TUNED
RDS_CLK
RDS_DATA
CLK
DO
C300
CE
DI
C301
100
0.01
16V
R302
0
R306
220k
C
MIC-002
D
BOARD
CN351
(Page 56)
11
E
F
ANTENNA
FM 75Ω
COAXIAL
AM
G
AV-002
BOARD
(1/2)
(Page 54)
TUNER
(FM/AM)
• See page 74 for IC Block Diagrams.
78 14
IC301
MC14052 BDR2
R321
R320
C321
0.01
47k
47k
C303
C308
220p
R307
C307
47k
22
R314
50V
22
50V
C309
22
50V
C310
22
50V
47k
R315
C304
220p
220k
R316
R317
47k
47k
R318
47k
47k
R319
964 153
Y
Y0
Y2
Y3
Y1
INH
X3
X0
X
X1
X2
VDD
16 15 14 13 12 11 10 9
C323
100
16V
1012
VSSB
IC B/D
IC301
AUDIO SELECTOR
R334
10k
Q300
RT1N241C-TP-1
INVERTER
R335
10k
Q301
RT1N241C-TP-1
INVERTER
87654321
VEE
A
12
C326
0.01
+
+
-
GND
4321
IC302
LINE AMP
C327
47
16V
R338
0
C325
100
16V
C324
0.01
8765
VDD
IC302
NJM4558M-TE2
1311
CN301
19P
RDS_DATA
RDS_CLK
TUNED
CE
DI
CLK
DO
1
RDS_DATA
2
RDS_CLK
3
AGND
4
TUNER_L
5
9V
6
TUNER_R
7
AGND
8
TUNED
9
CE
10
DI
11
CLK
12
DO
13
A_SEL0
14
A_SEL1
15
MICSW
16
AGND
17
AD_L
18
AGND
19
AD_R
E
MAIN
BOARD
(3/11)
CN503
(Page 35)
HCD-X10
H
5555
Page 56
HCD-X10
6-31. PRINTED WIRING BOARD – MIC-002 Board (AEP and UK models) –
: Uses unleaded solder.• See page 32 for Circuit Boards Location.
1 2 3
A
MIC-002 BOARD
R331
C316
R329
R327
C318
14
IC300
8
5
R330
(COMPONENT SIDE)
B
11
BT301
(11)
(CHASSIS)
11
(11)
J300
A.CAL MIC
ECM-AC2
C
D
MIC-002 BOARD
AV-002
C
BOARD
(Page 53)
CN302
14
CN351
C319
R332
C314
C305
R311
C320
R312
R325
R309
(CONDUCTOR SIDE)
E
C
B
FB302
R300
Q310
R305
C322
R333
FB301
R323
C312
1-872-969-
1-872-969-
6-32. SCHEMATIC DIAGRAM – MIC-002 Board (AEP and UK models) –
12
MIC-002 BOARD
D
A
B
C
C
AV-002
BOARD
(2/2)
CN302
(Page 55)
MIC IN
AGND
MIC DET
A9V
4
3
2
1
CN351
4P
C319
100
16V
C320
0.01
R333
4.7k
C322
47
16V
R332
4.7k
R330
0
8765
+
-
C316
47p
R329
330
3.3k
0
-
+
VDD
C318
10p
R331
27k
R312
R305
IC300
MIC AMP
IC300
NJM4558M-TE2
GND
4321
R325
470
R327
22k
1.2kR311
C314
10
50V
R323
100k
R309
2.2k
5
R300
0
C312
100p
FB301
FB302
Q310
RT1N441C-TP-1
MIC DETECT SWITCH
50V22C305
643
A,CAL MIC
ECM-AC2
J300
HCD-X10
5656
Page 57
HCD-X10
6-33. PRINTED WIRING BOARD – P-SW Board –
1 2 3 4
P-SW BOARD
(SIDE A)
A
S100
1
B
15
14
CN101
T-SENSOR
BOARD
6-34. SCHEMATIC DIAGRAM – P-SW Board –
: Uses unleaded solder.• See page 32 for Circuit Boards Location.
P-SW BOARD
R102
R103
C100
C101
(SIDE B)
12
P-SW BOARD
A
KEY0
DGND
KEYOUT3
KEYOUT2
KEYOUT1
KEYIN1
B
KEYIN2
H
MAIN
BOARD
(3/11)
CN506
(Page
35)
C
DGND
PCONT_TS
GND-LED
6V-LED
LED3
LED2
LED1
DGND
XRST
CN100
17P
17
16
15
14
13
12
11
6V
10
9
8
7
6
5
4
3
2
1
R100
1k
S100
/
0.01C100
0.01C101
R103
0
R102
435
CN101
15P
1
KEYOUT3
2
KEYOUT2
3
KEYOUT1
4
KEYIN1
5
KEYIN2
6
6V
7
DGND
8
PCONT_TS
9
GND_LED
10
6V_LED
11
LED3
12
LED2
13
LED1
14
GND
15
XRST
0
T-SENSOR
BOARD
C
D
CN100
1
17
1
2
16
2
1-872-746-
11
(11)
(TYPE-11)
H1
MAIN
BOARD
CN506
H2
MAIN
BOARD
CN506
(TYPE-12)
(Page 44)
(Page 46)
R100
1-872-746-
11
(11)
HCD-X10
5757
Page 58
HCD-X10
6-35. PRINTED WIRING BOARD – D IN-001 Board (US and Canadian models) –
: Uses unleaded solder.• See page 32 for Circuit Boards Location.
1 2 3 4 5 6
A
B
C
D IN-001 BOARD
1
7
8
14
R2010
R2009
8
(COMPONENT SIDE)
IC2001
C2007
FB2001
FB2002
1
(Page 44)
(Page 46)
(TYPE-11)
F1
MAIN
BOARD
CN505
F2
MAIN
BOARD
CN505
(TYPE-12)
D IN-001 BOARD
R2001
R2002
C2003
C2001
R2003
R2007
CN2001
5
1
C2009
R2012
(CONDUCTOR SIDE)
C2004
C2002
R2021
R2004
R2022
R2008
C2031
R2031
R2032
R2042
R2041
C2041
3
2
IC2003
1
3
2
IC2004
1
S2001
DIGITAL
INPUT
SELECTOR
COAXIAL
OPTICAL
VIDEO
COAXIAL
COAXIAL
SAT/
CABLE
OPTICAL
TV
OPTICAL
J2001
DIGITAL
IN
D
E
9
IC2002
16
C2011
1-872-743-
11
(11)
R2014
R2013
BT2001
1-872-743-
(CHASSIS)
11
(11)
HCD-X10
5858
Page 59
HCD-X10
6-36. SCHEMATIC DIAGRAM – D IN-001 Board (US and Canadian models) –
12
J2001
2P
A
VIDEO
COAXIAL
COAXIAL
D IN-001 BOARD
R2002
75
R2001
75
R2005
47k
C2003
0.1
R2003
470
B
1.5
7654321
GND
8
2.9
1.5
R2009
100
C
D
DIGITAL
IN
SAT/CABLE
OPTICAL
S2001
DIGITAL INPUT
()
SELECTOR
COAXIAL
R
OPTICAL
VCC
OUT
GND
3.2
3
0
1
2
R2031
R2032
0
C2031
0.01
0
10k
R2022
R2021
100
• See page 74 for IC Block Diagrams.
5
C2004
0.1
C2001
47
16V
R2006
47k
1.5
1.7
2.9
1.5
R2010
100
C2002
47
16V
R2004
470
1.7
R2007
470k
R2008
470k
VCC
14131211109
3.2
TC74VHCU04FT(EL)
IC2001
643
IC2001
WAVE SHAPER
FB2001
C2007
0.01
R2012
100
C2009
47
16V
78
CN2001
5P
5
4
3
2
1
A_SEL0
A_SEL1
D3.3V
DIGITAL-IN
DGND
F
MAIN
BOARD
(3/11)
CN505
(Page 35)
G
IC2003
E
F
TV
OPTICAL
VCC
OUT
GND
IC2004
OPTICAL RECEIVER
3.2
3
0
1
2
OPTICAL RECEIVER
IC2003
TORX147L
IC2003
TORX147L
C2041
0.01
R2041
IC2002
AUDIO SELECTOR
TC74HC151AF(EL)
0.01
IC B/D
IC2002
FB2002
R2014
R2013
100
100
2.9
2.9
0
8 7654321
Y
W
ST
GND
C
B
A
D7
3.203.2
0
R2042
0
3.2
D1
D0
D6
D5
0
2.9
D3
D2
D4
VCC
161514131211109
0
3.2
C2011
HCD-X10
5959
Page 60
HCD-X10
6-37. PRINTED WIRING BOARD – D IN-002 Board (AEP and UK models) –
1 2 3 4 5 6
D IN-002 BOARD
(COMPONENT SIDE)
A
B
R2005
(TYPE-11)
1
D
C
7
O
O
8
R2009
8
IC2001
14
FB2001
C2007
FB2002
1
IC2002
9
16
C2011
(Page 44)
(Page 46)
G1
MAIN
BOARD
CN505
G2
MAIN
BOARD
CN505
(TYPE-12)
• See page 32 for Circuit Boards Location.
D IN-002 BOARD
CN2001
5
C2042
1
C2009
(CONDUCTOR SIDE)
R2001
C2001
C2003
R2003
R2007
R2031
R2012
R2042
R2022
C2031
R2032
R2041
C2041
R2021
3
2
1
3
2
1
IC2003
IC2004
: Uses unleaded solder.
J2002
COAXIAL
S2001
DIGITAL
INPUT
SELECTOR
COAXIAL
OPTICAL
SAT/
CABLE
OPTICAL
TV
OPTICAL
DIGITAL
IN
HCD-X10
R2014
R2013
E
1-872-744-
11
(11)
BT2001
1-872-744-
(CHASSIS)
11
(11)
6060
Page 61
HCD-X10
6-38. SCHEMATIC DIAGRAM – D IN-002 Board (AEP and UK models) –
1
2
34 6
D IN-002 BOARD
A
COAXIAL
J2002
1P
R2001
75
B
SAT/CABLE
C
S2001
DIGITAL INPUT
()
SELECTOR
COAXIAL
R
OPTICAL
• See page 74 for IC Block Diagrams.
5
C2001
47
16V
R2003
47k
470
R2007
470k
C2003
0.1
R2005
7654321
GND
87
IC2001
WAVE SHAPER
IC2001
TC74VHCU04FT(EL)
VCC
16151413121110
G
D
E
F
DIGITAL
IN
OPTICAL
TV
OPTICAL
VCC
OUT
GND
VCC
OUT
GND
IC2003
OPTICAL RECEIVER
IC2003
TORX147L
3
1
2
IC2004
OPTICAL RECEIVER
TORX147L
3
1
2
IC2004
C2041
0.01
R2041
R2042
0R2032
0
0
C2031
0.01
R2031
10k
100
R2022
R2021
C2007
0.01
FB2001
C2009
47
16V
R2012
100
R2009
0
100
CN2001
5P
5
4
3
2
1
A_SEL0
A_SEL1
D3.3V
DIGITAL-IN
DGND
G
MAIN
BOARD
(3/11)
CN505
(Page 35)
IC B/D
87654321
ST
GND
C
B
Y
W
A
D0
D7
D6
D2
D1
D5
D4
161514131211109
D3
VCC
C2011
0.01
IC2002
AUDIO SELECTOR
IC2002
TC74HC151AF(EL)
FB2002
HCD-X10
100R2014
100R2013
6161
Page 62
HCD-X10
6-39. PRINTED WIRING BOARD – DISPLAY Board –
1 2 3 4 5 6 7 8 9 10
DISPLAY BOARD
(COMPONENT SIDE)
A
CN801
2
1
10
11
B
(Page 44)
J1
MAIN
BOARD
CN507
(TYPE-11)
(TYPE-12)
J2
MAIN
BOARD
CN507
(Page 46)
• See page 32 for Circuit Boards Location.
: Uses unleaded solder.
R825 R827
C828
+
R861
R805
Q801
C2C1
B1 B2E
C801
R801
C809
D802
C806
D801
D803D804
C807 C808
++ +
R803
D805
C861
+
C
11
1-872-745-
(11)
D
R830
C824
C825
C826
E
DISPLAY BOARD
F
(CONDUCTOR SIDE)
R800
5154
C827
R824
64
1
FL801
R823
R826
FLUORESCENT INDICATOR TUBE
C823
R828
C821C822
R822
IC821
Q821
BEC
R821
R882
R881
33
32
C862
13
IC861
9
R804
14
TRANSFORMER
T801
INVERTER
5
1
R829
L801
R808
R802
C805
HCD-X10
• Semiconductor Location
Ref. No. LocationRef. No. Location
D801 B-9
D802 B-9
D803 B-9
D804 B-9
D805 B-8
IC821 E-5
IC861 F-8
Ref. No. Location
Q801 B-10
Q821 D-6
11
1-872-745-
(11)
Note: The WIRE (FLA T TYPE) (11 CORE) connected with CN801 on the DISPLAY board is different by the type of the MAIN board.
Replace it for the WIRE (FLAT TYPE) (11 CORE) that is sure to suit each type when you replace the WIRE (FLAT TYPE) (11
CORE).
Refer to “NOTE OF REPLACING THE WIRE (FLAT TYPE) (11 CORE) (CN507 ON THE MAIN BOARD – CN801 ON THE
6262
DISPLAY BOARD)” (page 7) in servicing notes for the combination of the WIRE (FLAT TYPE) (11 CORE).
Page 63
HCD-X10
6-40. SCHEMATIC DIAGRAM – DISPLAY Board –
A
DISPLAY BOARD
B
IC861
C
D
REMOTE CONTROL RECEIVER
IC861
NJL23H400A
VCC
OUT
GND
213
3.3
3.3
C861
100
16V
R861
47
E
F
• See page 71 for Waveforms. • See page 74 for IC Block Diagrams.
5
17891011 1256 14 19181713 16 2015 23 24 2721 28262522 31 33 3530 32 363429 42 44434037 3938 41 46 484745 5149 50 544
P31
P32
P33
P34
P35
P36
P37G1G2
P32
-15.9
P33
-20.9
S30
S27
3.3 -23.6
-23.9
R821
1k
P34
P35
-18.4
-15.9
37
S31
S32
S33
S24
S25
S26
G1
P37
-23.4
G2
-23.9
-23.9
G1
G2
S35
S20
S21
S22
P36
-18.4
38 39 40 41 42
S34
S23
G3
-23.9
G4
-23.9
G3
G4
S18
S19
C862
0.01
IC B/D
IC821
FUORESCENT
INDICATOR
TUBE DRIVER
IC821
ML9208-03MBZ03B
Q821
2SC3052EF-T1-LEF
GRID DRIVE
33 34 35 36
S29
S28
32
78
P21
P22
P23
P24
P25
P26
P27
P28
G6
G5
-23.9
-23.9
4443 45 46 47 48 49
G5
S17
212223242531 30 29 262728
G8
G9
G7
-23.9
-23.9
-23.9
G6
G7
G8
G9
S13
S14
S15
S16
FLUORESCENT INDICATOR TUBE
P29
G10
-23.9
G10
S12
P30
G11
-23.9
G11
S11
151617181920
P17
P18
P19
P20
R826
G12
G13
S9
S10
14 13 12 11 10 9 8
FL801
P16
G14
S8
P6
0.01C823
1012
P2
P3
P4
P5
100pC825
2200pC824
G3G4G5G6G7G8G9
P1
0.01C827
100pC826
9643
P7
P8
P9
P10
P11
P12
P13
P14
P15
0.1C821
100kR822
100R825
100R823
100R824
100
10kR827
C822 47p
R828
3.3k
32
G15
S7
-25.2
5650 51 52 53 54 55
57 58 59 60 61 62 63 64
VFL
G16
GND
S4
S5
S6
3.1
1.3
13
OSC0
OSC1
XRST
S1
S2
S3
7654321
3.2
3.1
XCS
AD1
CLK
AD2
3.3
0
DAT
VDD
P1
P2
16V
100
C828
11
R830
0
C809
0.01
D805
MAZ8068GMLS0
C807
22
50V
C806
0.1
G10
G11
R805
R804
R803
C808
50V
12
R829
0
100
100
33k
22
HCD-X10
CN801
11P
1
E3.3V
2
SIRCS
3
G
J
MAIN
BOARD
(3/11)
CN507
(Page 35)
H
I
DGND
FL_RST
FL_CLK
DGND
FL_CS
FL_DATA
DGND
3.3V
4
5
6
7
8
9
5V
10
11
R882
R800
0
0
R881
0
-23.4 -25.9
P30 P31
-25.9
P29
-13.4
P28
-15.9
P27
-25.9
P26
-23.4
P25
-25.9
P24
R808
-15.9
-18.4
-18.4
P21
P22
P23
-18.4
P20
-20.9
P19
-18.4
P18
-18.4
P17
-20.9
P16
-20.9
P15
-23.4
P14
-13.4
P13
-15.9
P12
31
R801
0
Q801
CPH5504-TL-E
OSC
4.8
4.8
-1 -2
C801
100
0
16V
00
R802
2.2k
L801
47uH
-23.4
P11
C805
0.022
-25.9
P10
-25.4
P9
INVERTER TRANSFORMER
-13.4
-15.9
-13.4
P6
P7
P8
T801
2
3
49
5
6
-13.4
P5
1
8
7
-13.4
P4
-15.9
P3
-23.4
P2
-25.9
P1
MA2J1110GLS0
MA2J1110GLS0
MA2J1110GLS0
MA2J1110GLS0
D803
D804
D801
D802
Note: The WIRE (FLA T TYPE) (11 CORE) connected with CN801 on the DISPLAY board is different by the type of the MAIN board.
Replace it for the WIRE (FLAT TYPE) (11 CORE) that is sure to suit each type when you replace the WIRE (FLAT TYPE) (11
CORE).
Refer to “NOTE OF REPLACING THE WIRE (FLAT TYPE) (11 CORE) (CN507 ON THE MAIN BOARD – CN801 ON THE
6363
DISPLAY BOARD)” (page 7) in servicing notes for the combination of the WIRE (FLAT TYPE) (11 CORE).
Page 64
HCD-X10
6-41. PRINTED WIRING BOARD – P-AMP Board (Component Side) –
1 2 3 4 5 6 7 8 9 10 11 12 13 14
A
P-AMP BOARD
C962
B
C
D
(COMPONENT SIDE)
C945
R932
C946
R942
D923
EBC
C949
Q902
R941
R944
: Uses unleaded solder.• See page 32 for Circuit Boards Location.
(TYPE-11)
MAIN BOARD
R3008
R3009
R3010
R3011
CN3006
R3012
R3013
C3235
C3233
L1
R3014
R3015
R3016
(Page 45)
21
20
R3006
R3007
L904L905
L906
15
IC903
CN514
R3020
R3023
R3019
C3239
15
IC3014
51
C3238
43
IC3015
2
C3234
(TYPE-12)
1
IC3001
L2
MAIN BOARD
CN514
L3001
13
C3037
54
L3005
L3002
R3032
R3033
R3035
R3036
C3022
R3045
C3024
(Page 47)
IC3002
R3044
R3041
25
R3031
36
IC3004
R3040
25
R3034
36
51
C3019
43
24
37
24
37 48
IC3005
C3031
C3032
C3184
R3132
R3133
E
Q3004
C
B
R3106
R3077
R3066
R3068
C3076
R3084
R3085
R3088
C3074
C3063
C3077
C3065
R3107
R3102
18
18
18
1
C3073
1
1
IC3007
IC3008
IC3009
R3065
13
R3057
12
R3058
R3059
1
R3060
48
R3048
13
R3061
12
R3063
R3064
1
R3062
36
C3093
C3094
19
36
C3102
C3095
19
36
C3103
C3096
19
C3201
C3224
C3226
C3211
C3193
C3199
C3207
C3221
R3103
R3070
R3072
R3074
C3080
R3095
R3098
R3091
C3066
C3070
C3068
R3094
R3105
18
18
18
1
C3078
1
C3079
1
IC3010
IC3011
IC3012
C923
E
R913
D903
R903
F
R915
D914
C929
G
R912
R907
R3038
R3039
R3043
R3042
R3046
R3037
C3026
IC3006
24
25
36
37 48
IC3003
C3054
C3040
C3033
X3001
R3049
13
R3053
12
R3054
R3055
1
R3056
C3055
C3053
R3050
45
R3052
R3051
L3004
31
H
36
C3104
C3097
19
36
C3105
C3098
19
36
C3106
C3099
19
D3016
5
1
BC
Q3001
CN3001
1
2
E
M
M3001
(FAN)
IC3013
I
HCD-X10
• Semiconductor Location
Ref. No. Location
D903 F-4
D914 G-1
D923 B-4
D3016 H-11
Ref. No. Location
IC903 C-6
IC3001 B-8
IC3002 B-8
Ref. No. Location Ref. No. Location Ref. No. Location Ref. No. Location Ref. No. Location
IC3003 G-9
IC3004 C-9
IC3005 D-9
IC3006 F-9
IC3007 B-10
IC3008 C-10
IC3009 D-10
IC3010 E-10
IC3011 F-10
IC3012 G-10
IC3013 I-11
IC3014 C-7
IC3015 D-7
Q902 B-4
Q3001 H-13
Q3004 A-10
6464
1-872-740-
11
(11)
Page 65
6-42. PRINTED WIRING BOARD – P-AMP Board (Conductor Side) –
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
HCD-X10
: Uses unleaded solder.• See page 32 for Circuit Boards Location.
(Page 47)
A
B
C
CN3005
SPEAKER
IMPEDANCE
USE 4Ω
D
E
F
G
H
I
P-AMP BOARD (CONDUCTOR SIDE)
C3195
C3209
C3194
C3200
1
CN3005
(CHASSIS)
C3219
C3198
C3202
A3002
C3222
C3212
9
C3220
15
C3002
C3003
8
C3004
C3223
C3225
C3206
R3018
C3196
C3197
C3210
C3187
D3001
Q3003
BCE BCE
C3006
C3189
C3190
C3188
B
L3020
L3021
L3027
L3028
L3019
L3022
C3192
R3140
R3136
L3029
L3030
E
R3021
R3017
C3191
R3030
R3025
R3142
R3151
R3146
1
R3143
R3145
R3149
R3138
R3147
R3139
R3022
R3152
R3150
B
C3005
R3148
BCE
R3144
ECC
Q3013
BE
BCCE
BCCE
R3153
E
Q3017
R3141
E
Q3009
R3137
L3031
E
CN3003
Q3014
B
B
CE
B
B
CE
Q3002
C3208
D3015
R3161
L3008
L3007
L3009
L3010
L3011
L3012
L3013
L3014
L3015
L3016
L3017
L3018
BEC
R3134
R3135
Q3005
L3032
C3228
C3124
C3109
C3127
C3112
C3130
C3115
C3133
C3125
C3136
C3120
C3139
C3123
D3020
D3002
D3003
D3004
D3005
D3006
D3007
D3008
D3009
D3010
D3011
D3012
D3013
C3082
C3081
C3088
C3083
C3084
C3089
C3085
C3090
C3086
C3091
C3087
C3092
R3087
D3032
R3104
R3090
R3093
R3097
R3100
D3021
D3022
D3023
D3024
D3025
D3026
D3027
D3028
D3029
D3030
D3031
C3071
C3072
C3062
C3075
C3064
C3058
C3057
C3059
C3067
C3060
C3069
C3061
1
CN900
C3236
R3029
C3018
C3034
C3050
C3044
C3041
C3049
C3036
C3051
C3045
C3042
C3047
C3048
C3038
C3052
C3046
C3043
FH900
R901
3
C3237
F900
VDR900
C3021
C3035
C3023C3218
C3025
C3039
C3030
C3008
D3017
R3047
L3003
FH901
C3185
D3014
4
C3216
R3160
Q3010
BEC
C3126
Q3011
B
C3158
Q3012
C3148
BE
Q3016
C3151
BE
Q3006
Q3008
C3154
Q3015
BEBC
E
C3157
BEBC
Q3007
E
CN3004
C3227
C3240
13
C3203
C3186
C3142
C3143
C3144
C3145
C3146
C3147
C3149
C3150
C3152
C3153
C3155
C3156
C3217
R3162
C904
R3026
R3024
R3027
R3004
L900
R3003
R3028
C3011
C3017
R3156
R3157
C3013
C3020
R3155
SUB POWER
TRANSFORMER
C907
C908
C3012
R3154
T900
C964
C3010
R908
C909
R909
C922
R943
C959
C918
MAIN BOARD
(TYPE-12)
C3001
R3001
R938
C939
C943
C947
R930
R928
R929
D912 D916
D922
C900
TH900
C913
CN515
14
IC900
1
C930
L908
C928
R900
L901
K2
L907
C901
C902
C956
R902
R906
K1
C957
CN902
C931
D902
C926
MAIN BOARD
CN515
C955
C933
D908
8
C903
D909
C958
PH902
D906
R904
C905
D904
(Page 45)
(TYPE-11)
1
C921
D910
R919
R931
R927
C906
Q900
D905
B
E
BCE
C954
C912
C927
R923
C935
R924
R925
R922
R921
R911
(CHASSIS)(CHASSIS)(CHASSIS)
CN901
4
R945
C951
C950
A900
C948
1
C941
D921
A901
D915
C932
R918
D920
IC902
2
31
R920
R910
C934
R933
C952
C937
R934
L902
R936
R935
R940
R937
R939
13
2
IC904
T901
MAIN POWER
TRANSFORMER
15
C916
C914
IC901
2
4
C915
(CHASSIS) (CHASSIS)
C924
R926
PH900PH901
CECECE
D911
C920
C942C944
R916
D919
D918
R917
Q901
D917
D913
C925
BEC
C917
HCD-X10
J
• Semiconductor Location
D902 F-10
D904 F-11
D905 F-11
D906 E-11
D908 C-10
D909 G-10
D910 C-11
(Page 47)
(TYPE-12)
Ref. No. LocationRef. No. Location
D911 E-11
D912 C-10
D913 G-14
D915 G-14
D916 C-10
D917 F-14
D918 G-14
MAIN BOARD
CN412
M2
M1
MAIN BOARD
CN412
(Page 45)
(TYPE-11)
(CHASSIS) (CHASSIS) (CHASSIS)
(AC IN)
Ref. No. Location Ref. No. Location Ref. No. Location Ref. No. Location Ref. No. Location Ref. No. Location
D919 G-14
D920 H-14
D921 C-13
D922 F-9
D3001 H-2
D3002 B-5
D3003 B-5
D3004 C-5
D3005 C-5
D3006 D-5
D3007 D-5
D3008 E-5
D3009 E-5
D3010 F-5
D3011 F-5
D3012 F-5
D3013 G-5
D3014 A-4
D3015 A-4
D3017 F-7
D3020 H-5
D3021 B-6
D3022 B-6
D3023 C-6
D3024 C-6
D3025 C-6
D3026 D-6
D3027 E-6
D3028 E-6
D3029 E-6
D3030 F-6
D3031 F-6
D3032 G-6
IC900 E-10
IC901 H-13
IC902 C-12
IC904 C-12
Q900 F-11
Q901 H-15
Q3002 H-3
6565
Ref. No. Location Ref. No. Location Ref. No. Location
Q3003 H-3
Q3005 A-4
Q3006 E-3
Q3007 G-3
Q3008 E-3
Q3009 G-3
Q3010 B-3
Q3011 B-3
Q3012 C-3
Q3013 C-3
Q3014 D-3
Q3015 F-3
Q3016 D-3
Q3017 F-3
PH900 D-11
PH901 D-11
PH902 D-11
(CHASSIS)
1-872-740-
11
(11)
Page 66
HCD-X10
6-43. SCHEMATIC DIAGRAM – P-AMP Board (1/5) –
A
P-AMP BOARD
(1/5)
B
C
71
75
P-AMP
BOARD
(3/5)
P.CONT4
P.CONT4
DC_DETECT
OVF2
OVF1
DRIVE_RST
DAMP_LAT3
DAMP_LAT2
DAMP_LAT1
SHIFT
SCDT
SOFT_MUTE
AMP_D3
AMP_D2
AMP_D1
DSP_LRCK
DSP_BCK
SD_PCONT
DGND
P.CONT4
AMP_D+3.3V
XFSOIN
GND
MCK
GND
GND
GND
1.8V
FSOI
VDD
CN3006
21P
21
20
19
18
SD
17
16
15
14
13
12
11
10
INT
9
8
7
6
5
4
3
2
1
OVF
A
R3006
R3007
R3008
R3009
R3010
R3011
R3012
R3013
R3014
R3015
R3016
C3001
0.1
R3001
2.2
100
100
0
100
100
100
100
100
100
100
100
100R3023
100R3020
100R3019
0R3024
0R3003
P-AMP
BOARD
(4/5)
(Page 69)
D
E
L
MAIN
BOARD
(2/11)
F
CN514
(Page 34)
G
72
P-AMP
BOARD
H
I
(5/5)
(Page 70)
(Page 68)
• See page 71 for Waveforms. • See page 74 for IC Block Diagrams.
78
INIT
DSP_LRCK
DSP_BCK
DATA2
MCK_3
DC_DETECT
OVF2
OVF
SD
DRIVER_RESET
LAT3
LAT2
LAT1
SHIFT
SCDT
C3037
100
100R3027
100
0.1
SOFT_MUTE
DSP_LRCK
L3001
10uH
DATA3
DATA2
DATA1
DSP_BCK
MCK_1
MCK_2
MCK_3
SOFT_MUTE
INIT
SCDT
SHIFT
LAT3
OVF2
INIT
DSP_LRCK
DSP_BCK
DATA3
MCK_2
C3012
100pC3010
100p
100pC3013
5
1000pC3017
100R3004
R3026
IC3001
TC7SHU04FU(T5RSOJF)
1
NC
1.7
2
3
GND
BUFFER
IC3001
3.3V
3.3
54
1.6
C3008
R3028
100
16V
R3044
470
R3041
470
R3033
22
C3022
R3034
R3035
C3023
C3024
R3036
9643
100R3031
100R3032
0.1C3021
0.1
1012
LAT2
SCDT
SHIFT
SOFT_MUTE
C3031
0.1
3.3
3.300
3.3
3.3
3.3
19
20
21
22
23
24
3.3
252627282930313233343536
3.3
MCKSEL
1.6
LRCK
1.6
BCK
1.6
DATA
3.3
BFVDD
BFVSS
TEST
1.8
DVDD
1.6
XFSIIN
SCDT
SCSHIFT
PGMUTE
SCLATCH
OVFFLAGR
OVFFLAGL
SFLAG
INIT
FSOCKO
FSOI
3738394041424344454647
1.6
IC3004
STREAM PROCESSOR
IC3004
CXD9876R
HPOUTR2
HPVSSR
HPOUTR1
3.3
SOFTMUTE
HPVDDR
17
18
DVSS
NSPMUTE
HPOUTL2
HPVSSL
1.8
16
DVDD
HPOUTL1
3.3
3.3
C3034
0.1
15
XOVDD
HPVDDL
14
XFSOOUT
XVDD
1.6
13
XOVSS
OUTL1
OUTL2
OUTR1
OUTR2
VSUBC
XFSOIN
48
VSSL
VDDL
VSSL
VSSR
VDDR
VSSR
XVSS
12
IC B/D
1.6
3.3
1.6
1.6
3.3
1.6
123456789101112
C3044
C3050
C3047
100
25V
1311
0.1
0.1
R3057
100
R3058
100
R3059
100
R3060
100
14
B
L1A
L2A
R1A
R2A
73
P-AMP
BOARD
(2/5)
(Page 67)
42
C3035
0.1
470R3045
R3040
10k
3.3
0
0
3.3
3.3
20
21
22
23
24
SCDT
SCSHIFT
252627282930313233343536
OVFFLAGR
3.3
100
100
0.1
0.1
22
1.6
1.6
1.6
3.3
1.8
1.6
OVFFLAGL
INIT
SFLAG
MCKSEL
LRCK
BCK
DATA
BFVDD
BFVSS
TEST
DVDD
XFSIIN
FSOCKO
3738394041424344454647
1.6
SCLATCH
STREAM PROCESSOR
HPOUTR2
FSOI
PGMUTE
IC3005
CXD9876R
HPVSSR
HPOUTR1
3.3
19
SOFTMUTE
IC3005
HPVDDR
3.3
0.1C3032
3.3
18
NSPMUTE
HPOUTL2
C3041
1.8
17
DVSS
HPVSSL
0.1
R3048
47
16
DVDD
HPOUTL1
3.3
3.3
1.6
15
XOVDD
HPVDDL
3.3
13
14
XOVSS
XFSOOUT
XVDD
XFSOIN
48
1.6
VSSL
OUTL1
VDDL
OUTL2
VSSL
VSSR
OUTR1
VDDR
OUTR2
VSSR
VSUBC
XVSS
IC B/D
C3036
123456789101112
GND
0.1
1.6
3.3
1.6
3.3
C3051
C3045
C3048
100
25V
0.1
R3061
100
R3063
100
R3064
100
R3062
100
0.1
L1B
L2B
L2C
L1C
(Page 69)
74
P-AMP
BOARD
(4/5)
J
HCD-X10
C3218
0.1
C3042
0.1
6666
Page 67
HCD-X10
6-44. SCHEMATIC DIAGRAM – P-AMP Board (2/5) –
A
P-AMP BOARD
B
OTW
SD
0R3065
DRIVER_RESET
B
L1A
(2/5)
D3021 1SS367-T3SONY
C3073
0.1C3071
100R3106
0R3084
22kR3104
0.1
C
L2A
10R3077
D3022 1SS367-T3SONY
0.1C3074
0.1C3072
D
C3076
0.1C3062
100R3107
0R3085
22kR3087
0.1
73
P-AMP
BOARD
(1/5)
D3023 1SS367-T3SONY
(Page 66)
E
R2A
F
R1A
GND
D3024
10R3066
0.1C3063
1SS367-T3SONY
0.1C3075
G
C3064
1SS367-T3SONY
R3102 100
C3077
0.1
10
1SS367-T3SONY
0.1
0R3088
22kR3090
0.1C3065
0.1C3058
H
I
76
P-AMP
BOARD
(4/5)
(Page 69)
DRIVER_RESET
OTW
D3025
L2B
L1B
SD
V
GND
R3068
D3026
• See page 74 for IC Block Diagrams.
5
0.033
0.033
0.033
0.033
IC3007
DIGITAL POER AMP
C3093
0.1
RSA39LTE25
C3094
0.1
IC3008
DIGITAL POWER AMP
C3102
0.1
RSA39LTE25
C3095
0.1
IC3009
DIGITAL POWER AMP
C3103
RSA39LTE25
RSA39LTE25
C3096
0.1
IC3007
CXD9883M
OUT_A
OUT_A
OUT_A
OUT_B
OUT_B
OUT_B
OUT_A
OUT_A
OUT_A
OUT_B
OUT_B
OUT_B
OUT_A
OUT_A
OUT_A
OUT_B
OUT_B
OUT_B
31.226.7
36
35
34
33
GND
32
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
C3082
31
15.6
30
29
28
15.6
27
26
25
C3081
24
23
22
31.2
21
20
19
IC3008
CXD9883M
31.2
36
35
34
33
C3088
32
0.033
31
15.6
30
29
28
15.6
27
26
25
24
C3083
23
22
31.2
21
20
19
IC3009
CXD9883M
31.2
36
35
34
33
C3084
32
31
15.6
30
29
28
15.6
27
26
25
24
C3089
23
0.033
22
31.2
21
20
19
1
BST_A
12
2.5
3.3
3.2
1.6
1.1
3.4
1.6
12.2
12
26.7
26.7
12
2.5
3.3
3.2
1.6
1.1
3.4
1.6
12.2
12
26.7
26.7
12
2.5
3.3
3.2
1.6
1.1
3.4
1.6
12.2
12
26.7
PVDD_A
2
GVDD_A
PVDD_A
3
/OTW
PVDD_A
4
/SD
5
/RESET
PWM_A
6
7
OC_ADJ
8
GND
9
GND
VREG
10
11
M3
12
M2
13
M1
14
PWM_B
VDD
15
16
GND
PVDD_B
17
GVDD_B
PVDD_B
18
BST_B
PVDD_B
1
BST_A
PVDD_A
GVDD_A
2
PVDD_A
3
/OTW
PVDD_A
4
/SD
5
/RESET
PWM_A
6
OC_ADJ
7
8
GND
GND
9
VREG
10
11
M3
12
M2
M1
13
PWM_B
14
VDD
15
GND
16
PVDD_B
GVDD_B
17
PVDD_B
18
BST_B
PVDD_B
PVDD_A
1
BST_A
PVDD_A
2
GVDD_A
PVDD_A
3
/OTW
4
/SD
5
/RESET
6
PWM_A
7
OC_ADJ
8
GND
9
GND
10
VREG
11
M3
12
M2
13
M1
14
PWM_B
15
VDD
PVDD_B
16
GND
PVDD_B
17
GVDD_B
PVDD_B
18
BST_B
D3002
D3003
RSA39LTE25
D3004
D3005
RSA39LTE25
0.1
D3006
D3007
78
IC B/D
C3124
100
35V
C3142
1
L3008
10uH
L3007
10uH
C3143
1
C3109
C3126
100
2200
35V
35V
IC B/D
C3127
100
35V
C3144
1
L3009
10uH
L3010
10uH
C3112
C3115
C3145
1
C3158
100
2200
35V
35V
IC B/D
C3130
100
35V
C3146
1
L3011
10uH
L3012
10uH
C3147
1
C3148
100
35V
2200
35V
R3134
100k
C3185
50V
MA2J1110GLS0
R3146
100k
1012
OVER LOAD DETECT
00
Q3012
ISA1235AC1TP-1EF
Q3013
ISA1235AC1TP-1EF
C3192
10
R3149
100k
964 153
DC_DETECT
Q3004
DC DETECT
Q3004
2SC3052EF-T1-LEF
3.4
2SC3052EF-T1-LEF
FAN MOTOR DRIVE
1
D3015
MA2J1110GLS0
D3014
0
R3132
100k
000
Q3011
ISA1235AC1TP-1EF
0000
00
Q3010
ISA1235AC1TP-1EF
Q3005
0.2
C3186
10
50V
R3135
10k
R3133
0
C3184
0.1
C3189
2.2
00
R3143
100k
R3148
R3142
100k
100k
2.5
00
00
Q3016
ISA1235AC1TP-1EF
Q3014
ISA1235AC1TP-1EF
00
0
Q3010-3013
ISA1235AC1TP-1EF
ISA1235AC1TP-1EF
00
R3152
100k
C3191
R3145
Q3008
Q3006
0
2.2
100k
R3151
100k
R3144
100k
Q3006,3008,3014,3016
OVER LOAD DETECT
00
C3187
10
R3138
100k
R3136
100k
12
R3160
100k
C3216
1311
OTW
0.1
14
CN3003
4P
1
GND
2
+30V
3
+30V
4
GND
77
P-AMP
BOARD
(5/5)
CN901
(Page 70)
1000pC3209
1000pC3199
C3193 0.01
0.6uHL3019
0.6uHL3020
0.6uHL3021
0.6uHL3022
0.01C3223
R3140
100k
C3195 0.01
C3197 1000p
0.01C3224
C3196 0.01
C3201 1000p
1000pC3210
0.01C3225
C3194 0.01
C3206 1000p
1000pC3200
0.01C3226
C3211 1000p
CN3005
15P
SPEAKER
IMPEDANCE
USE 4 Ω
1
9
15
8
FL-
FR+
FL+
78
FR-
SW1-
P-AMP
BOARD
SW1+
(4/5)
A
(Page 69)
PVDD
HCD-X10
J
6767
Page 68
HCD-X10
6-45. SCHEMATIC DIAGRAM – P-AMP Board (3/5) –
P-AMP BOARD
A
A
XFSOIN
GND
75
P-AMP
(Page 66)
79
P-AMP
BOARD
(5/5)
(Page 70)
BOARD
(1/5)
MGND
+V_FAN
FAN_GND
AMP_D+3.3V
E13V_A
1.8V
VDD
FSOI
E13V
OVF
13.1
C3003
0.1
7.1
CN3001
1
2
2P
B
C
D
E
M3001
(FAN)
M
F
G
H
• See page 71 for Waveforms. • See page 74 for IC Block Diagrams.
5
78
(3/5)
SOFT_MUTE
SCDT
SHIFT
LAT1
OVF
C3233
0.1
OTW
12.2
R3030
100
VOUT
R3025
10k
1
INIT
DSP_LRCK
DSP_BCK
DATA1
R3022
4.7k
MCK_1
R3021
C3006
SENSE
R3155
R3156
10k
33k
100
16V
R3154
100k
IC3015 IC3002
+3.3V REGULATOR
TK11133CSCL-G
10k
C3020
220
16V
C3002
470
16V
13.1
BCP56T1
(FOR FAN MOTOR)
7.7
Q3001
Q3001-3003
B+ SWITCH
2SC3052EF-T1-LEF
7.7
IC B/D
Q3002
8.3
C3005
3.3
50V
IC3014
+12V REGULATOR
IC3014
SI-3010KM-TL
C3004
0.1
R3018
2.2
R3017
7.5k
0
2SC3052EF-T1-LEF
12345
3.3
C3234
0.1
0.7
VCONT
C3239
MA2J1110GLS0
Q3003
VIN
13.1
0.1
D3001
GND
L3005
10uH
IC B/D
IC3015
C3026
0.1
9643
1012
0.1C3033
0.1C3038
12
47R3049
1311
41
470R3046
R3042
10k
0
0
3.3
3.3
3.3
1.8
18 131415161724 23 22 21 20 19
NSPMUTE
HPOUTL2
C3030
220
16V
DVSS
HPVSSL
3.3
3.3
1.6
DVDD
XOVDD
HPOUTL1
HPVDDL
3.3
3.3
C3043
0.1
C3040
0.01
54
3.3V
NC
1.6
XOVSS
XFSOOUT
OUTR1
OUTR2
VSUBC
XVDD
XFSOIN
1.5
1.5
321
OUTL1
OUTL2
GND
3.3
470R3043
100R3037
100R3038
0.1C3025
22R3039
0.01C3019
16V220C3237
1.33.3
321
NP
GND
CONT
VOUT
VIN
54
12.2
C3011
220
16V
C3235
0.1
R3157
C3238
0.1
0
3.3
L3002
R3029
C3236
220
16V
3.3
3.3
1.6
1.6
1.6
3.3
1.8
1.6
10uH
3.3
0
25
26
27
28
29
30
31
32
33
34
35
36
54
VIN
CONT
3.3
OVFF
OVFFLAGL
SFLAG
INIT
MCKSEL
LRCK
BCK
DATA
BFVDD
BFVSS
TEST
DVDD
XFSIIN
37 38 39 40 41 42 43 44 45 46 47 48
1.6 3.3
D3017
1SS367-T3SONY
1.8
VOUT
GND
NP
321
1.3
C3018
0.1
LAGR
SCSHIFT
SCLATCH
STREAM PROCESSOR
FSOCKO
FSOI
HPOUTR2
R3047
2.2
IC B/D
+1.8V REGULATOR
IC3002
TK11118CSCL-G
IC3003
TC7SHU04FU(T5RSOJF)
SCDT
PGMUTE
SOFTMUTE
IC3006
IC3006
CXD9876R
HPVSSR
HPOUTR1
HPVDDR
3.3
C3039
L3003
10uH
OSC BUFFER
IC3003
0.1
VSSL
VDDL
VSSL
VSSR
VDDR
VSSR
XVSS
R3050
IC B/D
C3052
0.1
L3004
1uH
R3053
100
R3054
100
R3055
100
R3056
100
L1D
L2D
R1D
R2D
V
80
P-AMP
BOARD
(4/5)
(Page 69)
12
1.6
11
3.3
10
1.6
9
8
7
1.6
6
3.3
5
1.6
4
3
2
1
47
R3051
1M
C3055
10p
R3052
100
49.1MHz
C3053
1000p
X3001
C3054
5p
C3046
C3049
100
25V
0.1
HCD-X10
6868
Page 69
HCD-X10
6-46. SCHEMATIC DIAGRAM – P-AMP Board (4/5) –
A
B
C
76
P-AMP
BOARD
(2/5)
(Page 67)
DRIVER_RESET
74
P-AMP
BOARD
(1/5)
(Page 66)
GND
V
OTW
SD
L2C
L1C
(4/5)P-AMP BOARD
D3027 1SS367-T3SONY
D3028
R3103 100
C3078
0.1
10R3070
1SS367-T3SONY
0.1C3057
0R3091
22kR3093
0.1C3066
0.1C3059
D
D3029 1SS367-T3SONY
L1D
0.1C3067
R3094 100
0R3095
22kR3097
E
C3079
0.1
F
L2D
D3030
10R3072
1SS367-T3SONY
0.1C3068
0.1C3060
• See page 74 for IC Block Diagrams.
5
IC3010
CXD9883M
26.7
12
2.5
3.3
3.2
1.6
1.1
3.4
1.6
12.2
12
26.7
26.7
12
2.5
3.3
3.2
1.6
1.1
3.4
1.6
12.2
12
26.7
PVDD_A
1
BST_A
PVDD_A
2
GVDD_A
3
PVDD_A
/OTW
4
/SD
5
/RESET
6
PWM_A
7
OC_ADJ
8
GND
9
GND
10
VREG
11
M3
12
M2
13
M1
14
PWM_B
15
VDD
PVDD_B
16
GND
PVDD_B
17
GVDD_B
PVDD_B
BST_B
PVDD_A
1
BST_A
PVDD_A
2
GVDD_A
PVDD_A
3
/OTW
4
/SD
5
/RESET
6
PWM_A
7
OC_ADJ
8
GND
9
GND
10
VREG
11
M3
12
M2
13
M1
14
PWM_B
15
VDD
PVDD_B
16
GND
PVDD_B
17
GVDD_B
PVDD_B
BST_B
OUT_A
OUT_A
OUT_A
OUT_B
OUT_B
OUT_B
OUT_A
OUT_A
OUT_A
OUT_B
OUT_B
OUT_B
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
31.2
36
35
34
33
32
31
15.6
30
29
28
15.6
27
26
25
24
23
22
31.2
21
20
1918
IC3011
CXD9883M
31.2
36
35
34
33
32
31
15.6
30
29
28
15.6
27
26
25
24
23
22
31.2
21
20
1918
C3085
0.033
C3090
0.033
C3086
0.033
C3091
0.033
C3104
C3097
C3105
C3098
IC B/D
IC3010
DIGITAL POWER AMP
0.1
0.1
IC B/D
IC3011
DIGITAL POWER AMP
0.1
RSA39LTE25
0.1
IC B/D
C3133
100
35V
D3008
RSA39LTE25
D3009
RSA39LTE25
C3125
100
35V
C3136
100
35V
D3010
D3011
RSA39LTE25
C3120
100
35V
78
C3149
1
L3013
10uH
L3014
10uH
C3150
1
C3151
2200
35V
ISA1235AC1TP-1EF
ISA1235AC1TP-1EF
C3152
1
L3015
10uH
L3016
10uH
C3153
1
C3154
2200
35V
0
Q3009
Q3007
R3137
100k
9643
C3188
R3139
100k
R3141
1012
0
Q3017
Q3015
00
0000
R3147
100k
00
00
2.2
100k
ISA1235AC1TP-1EF
ISA1235AC1TP-1EF
C3190
2.2
R3150
100k
R3153
100k
Q3007,3009,3015,3017
OVER LOAD DETECT
0.6uHL3027
0.6uHL3028
0.6uHL3029
0.6uHL3030
0.01C3222
C3212 1000p
0.01C3221
12
C3207 1000p
0.01C3220
C3202 1000p
0.01C3219
C3198 1000p
1311
PVDD
SW1-
SW1+
A
FL+
FL-
FR-
FR+
14
78
P-AMP
BOARD
(2/5)
(Page 67)
71
P.CONT4
P-AMP
BOARD
(1/5)
(Page 66)
HCD-X10
IC3012
G
H
I
80
P-AMP
BOARD
(3/5)
(Page 68)
10R3074
C3080
0.1C3069
100R3105
0R3098
22kR3100
0.1
0.1C3070
0.1C3061
D3031
1SS367-T3SONY
R2D
R1D
D3032
V
1SS367-T3SONY
CXD9883M
26.7
12
2.5
3.3
3.2
1.6
1.1
3.4
1.6
12.2
12
26.7
PVDD_A
1
BST_A
PVDD_A
2
GVDD_A
PVDD_A
3
/OTW
4
/SD
5
/RESET
6
PWM_A
7
OC_ADJ
8
GND
9
GND
10
VREG
11
M3
12
M2
13
M1
14
PWM_B
15
VDD
PVDD_B
16
GND
PVDD_B
17
GVDD_B
PVDD_B
BST_B
OUT_A
OUT_A
OUT_A
OUT_B
OUT_B
OUT_B
GND
GND
GND
GND
GND
GND
31.2
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
1918
C3087
0.033
15.6
15.6
C3092
0.033
31.2
IC3012
DIGITAL POWER AMP
C3106
0.1
C3099
0.1
C3139
100
35V
D3012
RSA39LTE25
D3013
RSA39LTE25
C3123
100
35V
C3155
L3017
10uH
L3018
10uH
C3156
1
1
C3157
2200
35V
MA2J1110GLS0
L3031
220uH
C3227
0.1
D3020
IC3013
+5V REGULATOR
VIN
12345
31.2
C3203
1000
35V
IC3013
SI-8050JD-TP
VOUT
5.2
D3016
SFPB-76V
GND
IC B/D
VOS
SS
5
2.5
R3161
L3032
100uH
C3240
0.1
270
C3208
3300
6.3V
R3162
47k
C3217
C3228
0.47
0.1
50V
CN3004
3P
1
+5V
2
GND
3
+5V
M
MAIN
BOARD
(6/11)
CN412
(Page 38)
J
6969
Page 70
HCD-X10
6-47. SCHEMATIC DIAGRAM – P-AMP Board (5/5) –
A
1
LIVE
3
NEUTRAL
(AC IN)
CN900
3P
B
F900
8A 15V
(US,CND)
T6.3AH 250V
(AEP,UK)
R901
1/2W
1M
C
D
(5/5)P-AMP BOARD
IC B/D
IC901
POWER CONTROL
IC901
FB/OLP
VCC
GND
OCP/SYNC
C904
275V
D
VDR900
STR-F6138-LF1352(US,CND)
STR-F6168-LF1352(AEP,UK)
L900
14
0.22
3.3
5
20
4
151.5
3
2
0.4
1
E
C923
0.1
(CHASSIS)
F
IC B/D
IC900
POWER CONTROL
G
H
IC900
STR-V153
DRAIN
S/OCP
VCC
C900
GND
0
21
47p
2KV
1 3456 8
151.5
I
R900
∗
C901
C902
0.1
4700p
∗
R900
0.82 1W(US,CND)
1 1W(AEP,UK)
J
• See page 74 for IC Block Diagrams.
5
TH900
C907
330p
32
FB/OLP
2.4
125V
C908
330p
125V
C914
∗
1000p 1.5kV(AEP,UK)
3300p 1.5kV(US,CND)
START_UP
151.5
R902
680k
C914
C916
220p
∗
MAZ8051GMLS0
L901
C913
0.22
275V
C917
47
50V
DTC143TKA-T146
21 25.6
D902
C903
2.2
50V
14
Q900
RIPPLE FILTER
32
RT1P431C-TP-1
B+ SWITCH
C915
4700p
22.2
C905
4700p
Q901
5.4
R913
3.3k
MAZ8220G0LS0
D911
MA2J1110GLS0
R904
4.7k
D904
33k 2W(US,CND)
68k 2W(AEP,UK)
C954
0.01
250V
D5SBA60F01
2020
C925
1
50V
MAZ8051GMLS0
∗
R908
C906
100V
D909
6
5
4
3
2
1
∗
C929
0.1C921
25V1000C924
0.1C918
16V2200C922
0.1C928
16V2200C930
0.1C931
6.3V3300C933
MAIN POWER
TRANSFORMER
R922
100k
R943
2.2
1012
8
9
10
11
12
13
14
1.7
TLP421F(D4-GR)
0
2.4 4
PH900
TLP421F(D4-GR)
ISOLATOR
PH901
ISOLATOR
PH902
TLP421F(D4-GR)
ISOLATOR
C937T901
220 125V(US,CND)
680p 125V(AEP,UK)
D921
YG906C2R
C941
0.1
C942
2200
35V
26.8
25.8
4
2.9
3
IC903
SI-3010KM-TL
Vcont
Vin
GND
9.2
Vout
8
68k
R928
R929
2.2k
IC902
RT9H301C-T112-1
12345
3.2
C939
1000p
C944
12
L902
10uH
R934
C948
R930
3.3k
R935
4.7k
R936
33k
R937
4.7k
C952
0.047
R926
1k
R931
820
0
RT1N141M-TP-1
MAIN POWER
R927
1k
R919
470
10k
2.3
ON/OFF SWITCH
R920
C934
22k
0.047
3
2.5
1
2
2200
35V
R933
2.2k
Sense
1
78
C926
0.01
250V
~
~
C927
∗∗
C920
0.01
250V
D913
MA2J1110GLS0
D903
MA2J1110GLS0
R903
10
R912
220
D905
22
R907
D906
D1NL20U-TR2
R909
2.2
1k
R908
1/2W
C909
∗∗
D922
ERA22-08KFLB
∗
C909
0.0033 400V(AEP,UK)
0.01 400V(US,CND)
C927
330 400V(AEP,UK)
100 200V(US,CND)
D914
MA2J1110GLS0
R915
3.3k
D915
MA2J1110GLS0
R910 R911
0.05 5W(US,CND)
0.1 5W(AEP,UK)
1
2
R906
4.7
3
4
5
7
8
18k 3W(US,CND)
47k 3W(AEP,UK)
C932
0.0033 400V(AEP,UK)
0.01 400V(US,CND)
D917
D1NL20U-TR2
∗
R910
T900
SUB POWER
TRANSFORMER
R916
18k
∗
R918
∗∗
16
15
14
13
12
11
10
9
964 15 163
D920
SARS03
R917
10
D918
MA2J1110GLS0
R921
2.2k
D919
MAZ8100GMLS0
C929
∗
∗
R911
0.22 2W(US,CND)
0.33 2W(AEP,UK)
C912
330p 125V (US,CND)
470p 125V (AEP,UK)
D910
EK19LF-F7
D908
EK19LF-F7
D912
RK36LF-B3
D916
RK36LF-B3
R918
∗
C935
47
50V
1000p(AEP,UK)
1500p(US,CND)
C959
0.1
0.1
R923
R924
220
2.2k
R939
470k
1.5
Q902
1000p
1311
C950
2200
35V
25.8
3
RT9H301C-T112-1
IC904
SHUNT REGULATOR
MA2J1110GLS0
C949
IC903
+8V REGULATOR
R925
3.9k
IC902
SHUNT REGULATOR
D923
L908
L907
IC B/D
IC904
R942
14
CN901
4P
1
GND
2
+30V
3
C962
0.1
CN902
14P
4
14
13
12
11
10
9
8
7
6
5
4
3
2
1
+30V
GND
(CHASSIS)
GND
DGND
SD_PCONT
P.CONT4
AMP_D+3.3V
AMP_D+3.3V
FAN_GND
E13V_A
E13V
GND_LED
6V_LED
D+3.3V
AGND
E+4V
E4_D+3.3V
E6V
E6_D+5V
DGND
E13V
DGND
M+8V
NC
M_GND
C951
1000p
2.5
1
4.7k
10uH
1kR938
R945
100k
R940
3.3k
2
C945
0.1
R932
10uHL906
10uHL904
10uHL905
C946
2.2
0.1
C943
R941
0.1
0
R944
0
0.1C956
0.1C957
0.1C955
0.1C958
C947
220
10V
77
P-AMP
BOARD
CN3003
(Page 67)
72
P-AMP
BOARD
(1/5)
(Page 66)
79
P-AMP
BOARD
(3/5)
MAIN
BOARD
(2/11)
CN515
(Page 34)
(2/5)
(Page 68)
K
HCD-X10
7070
Page 71
• Waveforms
– MAIN Board –
HCD-X10
IC1105 <z.v (YUV1)
1
(Color bar)
500 mV/DIV, 20 µs/DIV
IC1105 <z.n (YUV2)
2
(Color bar)
500 mV/DIV, 20 µs/DIV
IC1105 <z., (YUV3)
3
(Color bar)
IC1105 <xzc (ALRCK)
7
1 Vp-p
H
8
0.9 Vp-p
H
9
20.8 µs
1 V/DIV, 10 µs/DIV
IC1105 <xzv (ABCK)
326 ns
1 V/DIV, 100 ns/DIV
IC1105 <xzb (ACLK)
3.7 Vp-p
4 Vp-p
IC702 qd (CKOUT(O))
qd
81.4 ns
1 V/DIV, 50 ns/DIV
IC702 qf (BCK(O))
qf
326 ns
1 V/DIV, 100 ns/DIV
IC702 qg (LRCK(O))
qg
4.6 Vp-p
4 Vp-p
H
500 mV/DIV, 20 µs/DIV
IC1105 <x// (YUV4)
4
(Color bar)
500 mV/DIV, 20 µs/DIV
IC1105 <x/x (YUV5)
5
(Color bar)
500 mV/DIV, 20 µs/DIV
IC1105 <x/c (YUV6)
6
(Color bar)
1.2 Vp-p
40.8 ns
1 V/DIV, 20 ns/DIV
IC1107 6 (1Y)
q;
1 Vp-p
H
qa
0.8 Vp-p
H
qs
37.4 ns
1 V/DIV, 20 ns/DIV
IC1702 qg (X1)
100 ns
1 V/DIV, 50 ns/DIV
IC501 qd (Xout)
3.6 Vp-p
4 Vp-p
3.8 Vp-p
20.8 µs
1 V/DIV, 10 µs/DIV
IC702 wa (XOUT(O))
qh
81.4 ns
1 V/DIV, 50 ns/DIV
IC1 ih (DPDVLRCK)
qj
20.8 µs
1 V/DIV, 10 µs/DIV
IC1 ij (DPDVBCK)
qk
3.9 Vp-p
4.2 Vp-p
4.1 Vp-p
0.8 Vp-p
H
500 mV/DIV, 20 µs/DIV
200 ns
1 V/DIV, 100 ns/DIV
3.2 Vp-p
326 ns
4.1 Vp-p
1 V/DIV, 100 ns/DIV
71
Page 72
HCD-X10
IC1 <zvc (XTAL)
ql
40 ns
1 V/DIV, 20 ns/DIV
1.6 Vp-p
– AV-001 Board –
IC401 qj, qk (CrOUT)
wa
(Color bar)
500 mV/DIV, 20 µs/DIV
IC401 w;, wa (CbOUT)
ws
(Color bar)
500 mV/DIV, 20 µs/DIV
IC401 wd, wf (CYOUT)
wd
(Color bar)
– DISPLAY Board –
T801 2
ea
1.7 Vp-p
H
es
1.3 Vp-p
H
7 µs
10 V/DIV, 5 µs/DIV
IC821 tl (OSC1)
638 ns
1 V/DIV, 200 ns/DIV
16.4 Vp-p
3.8 Vp-p
H
1 V/DIV, 20 µs/DIV
IC401 wh, wj (YOUT)
wf
(Color bar)
H
1 V/DIV, 20 µs/DIV
IC401 wl, e; (VOUT)
wg
(Color bar)
H
1 V/DIV, 20 µs/DIV
IC401 es (C OUT)
wh
(Color bar)
2.2 Vp-p
2.4 Vp-p
2.4 Vp-p
72
1.6 Vp-p
H
500 mV/DIV, 20 µs/DIV
Page 73
– P-AMP Board –
IC3006 qf (XFSOOUT)
ra
20.6 ns
1 V/DIV, 10 ns/DIV
IC3005 qf (XFSOOUT)
rs
20.6 ns
1 V/DIV, 10 ns/DIV
HCD-X10
3 Vp-p
3 Vp-p
73
Page 74
HCD-X10
• IC Block Diagrams
– MAIN Board –
IC4 SN74LVC1G79DCKR
1
D
CLK
GND
C
2
3
TG
_
C
C
TG
_
C
C
_
C
IC5, 9, 601 – 603 SI-3010KM-TL IC412 SN74L V125APWR
C
TG
_
C
C
TG
_
C
VCC
5
Q
4
1VC
2VIN
3GND
TSD
–
+
REF
4VOUT
5ADJ
1 OE
2 OE
GND
1
2
1A
3
1Y
4
5
2A
6
2Y
7
14
VCC
13
4 OE
12
4A
11
4Y
10
3 OE
9
3A
8
3Y
IC441 MC14052 BDR2 IC442, 604, 605 NJM2235V(TE2)
16
2Y0
2Y2
2-COM
2Y3
INH
GND
GND
2Y1
1
2
3
4
5
6
7
8
VCC
15
1Y2
1Y1
14
1-COM
13
12
1Y0
11
1Y3
A
10
9
B
VIN 1
SW 1
VIN 2
SW 2
1
BUFFER
2
3
BIAS
4
8
GND
7
V OUT
V+
6
VIN 3
5
74
Page 75
8
15
16
10
14 13
12
11
G
4A 4B 4Y 3A 3B
3Y
9
6
7
4
5
2 3
1
S
1A 1B
1Y
2A 2B 2Y
VCC
OUTPUT CTL
4Y OUTPUT3A3B
3Y OUTPUT
4A
4B
1Y OUTPUT
2A
2B
2Y OUTPUT
1A
1B
GND
SELECT
INPUTS
INPUTS
INPUTS
INPUTS
IC503 PST3635NR IC504, 1706 TK11150CSCL-G
IC502, 1101, 1102, 1707 TK11133CSCL-G
OUT
VDD 2
GND
1
CD5
–
+
VREF
3
4
NC
IC1705 TK11118CSCL-G
VIN
5
OVER HEAT &
OVER CURRENT
PROTECTION
CONTROL
CIRCUIT
REFERENCE
BANDGAP
–
+
HCD-X10
VOUT
4
1
VCONT
2
GND
3
NP
IC702 LC890561W IC704 SN74LVC257APWR
37CE
38CLK
39XSEL
40MODE0
41MODE1
42DGND
43DVDD
44DOSEL0
45DOSEL1
46CKSEL0
DI
36
35DO34
ERROR33BPSYNC32VREF31DGND30DVDD29VF/DATAO228F2/DLMP
REGULATOR FS CALCULATION
PA,PB DETECT
MICRO
C-BIT DETECT
CONTROLLER
DATA SELECTOR
DEMODULATION
LOCK DETECT
DATA SELECTOR
BUFFER RAM
&
F1/FSB126F0/FSB025CSFLAG
27
AMP
PLL
CLOCK
SELECTOR
24 AUDIO
23 EMPHA
22 XIN
21 XOUT
20 XMCK
19 DVDD
18 DGND
17 XSTATE
16 DATAO
15 LRCK
14 BCK
13 CKOUT
47CKSEL1
48XMODE
1
DISEL
2
DOUT
INPUT SELECTOR
3
DIN04DIN1
5
DIN2
6
DGND
7
DVDD
8
SDIN
9
AGND
10
11
12
LPF
AVDD
AGND
75
Page 76
HCD-X10
IC772 PCM1808PWR
DELTA-SIGMA
MODULATOR
VREF 1
AGND
VCC
VDD
DGND
SCKI
LRCK
REFERENCE
DELTA-SIGMA
MODULATOR
2
3
4
5
6
7
POWER
SUPPLY
– AV-001 Board –
IC301 MC14052 BDR2
× 1/64
DECIMATION
FILTER
WITH
HIGH-PASS
FILTER
CLOCK & TIMING CONTROL
ANTIALIAS
LOW-PASS FILTER
ANTIALIAS
LOW-PASS FILTER
SERIAL
INTERFACE
&
MODE/FORMAT
CONTROL
14
13
IC401 BH7868FS-E2
VINR
VINL
FMT12
MD111
MD010
DOUT9
BCK8
1
2Y0
2Y2
2
3
2-COM
2Y3
4
5
2Y1
6
INH
7
GND
GND
8
IC400 NJM2235V(TE2)
1
VIN 1
SW 1
2
VIN 2
3
BIAS
SW 2
4
16
15
14
13
12
11
10
9
VCC
1Y2
1Y1
1-COM
1Y0
1Y3
A
B
BUFFER
1
VCC1
2
S1
3
S2
4C IN
BIAS
6dB
MUTE1
5MUTE1
6CV IN
CLAMP
6dB
7SEL (CV/MIX)
8Y IN
CLAMP
6dB
9BIAS
BIAS
10SEL (BIAS/CLAMP)
BIAS
11PY/G IN
CLAMP
12GND
8
GND
7
V OUT
V+
6
VIN 3
5
13PB/B IN
BIAS
14MUTE2
MUTE2
15PR/R IN
BIAS
16VCC2
H
L
6dB
6dB
L
+
H
6dB
6MHz
LPF
S-DC OUT
S1/S2
6MHz
LPF
6MHz
LPF
12MHz
LPF
12MHz
LPF
12MHz
LPF
75Ω
75Ω
75Ω
75Ω
75Ω
75Ω
32 C OUT
31 S-DC OUT
30
CV OUT
29
CV OUT SAG
GND
28
Y OUT
27
26
Y OUT SAG
25 GND
PY/G OUT
24
23
PY/G OUT SAG
22 GND
PB/B OUT
21
20
PB/B OUT SAG
19 GND
PR/R OUT
18
17
PR/R OUT SAG
76
Page 77
IC402 NJM2887DL3 (TE2)
PROTECTION
BANDGAP
REFERENCE
HCD-X10
THERMAL
+
–
3
1
CONTROL
2
VIN
GND
– AV-002 Board –
IC301 MC14052 BDR2
1
2Y0
2Y2
2
3
2-COM
2Y3
4
5
2Y1
6
INH
7
GND
GND
8
4
VOUT
5
VADJ
IC400 NJM2235V(TE2)
8
16
VCC
15
1Y2
1Y1
14
1-COM
13
12
1Y0
11
1Y3
A
10
9
B
VIN 1
SW 1
VIN 2
SW 2
1
BUFFER
2
3
BIAS
4
GND
7
V OUT
V+
6
VIN 3
5
IC401, 403 BH7868FS-E2 IC402 NJM2887DL3 (TE2)
VCC1
1
2
S1
3
S2
4C IN
BIAS
6dB
MUTE1
5MUTE1
6CV IN
CLAMP
6dB
7SEL (CV/MIX)
8Y IN
CLAMP
6dB
9BIAS
BIAS
10SEL (BIAS/CLAMP)
BIAS
11PY/G IN
CLAMP
12GND
13PB/B IN
BIAS
14MUTE2
MUTE2
15PR/R IN
BIAS
16VCC2
H
L
6dB
6dB
L
+
H
6dB
6MHz
LPF
S-DC OUT
S1/S2
6MHz
LPF
6MHz
LPF
12MHz
LPF
12MHz
LPF
12MHz
LPF
75Ω
75Ω
75Ω
75Ω
75Ω
75Ω
32 C OUT
31 S-DC OUT
30
CV OUT
29
CV OUT SAG
GND
28
Y OUT
27
26
Y OUT SAG
25 GND
PY/G OUT
24
23
PY/G OUT SAG
22 GND
PB/B OUT
21
20
PB/B OUT SAG
19 GND
PR/R OUT
18
17
PR/R OUT SAG
1
CONTROL
BANDGAP
REFERENCE
2
VIN
PROTECTION
3
GND
THERMAL
4
VOUT
+
–
5
VADJ
77
Page 78
HCD-X10
– D IN-001 Board –
IC2002 TC74HC151AF (EL)
1
GND
D3
D3D2
D1
D0
Y
W
SC
D4
D5
D6
D7
A
B
2
D2
3
D1
4
D0
Y
5
6
XY
7
OE
8
CC
V
16
15
D4
14
D5
13
D6
12
D7
11
A
10
B
9
C
– DISPLAY Board –
IC821 ML9208-03MBZ03B
– D IN-002 Board –
IC2002 TC74HC151AF (EL)
1
GND
D3
D3D2
D1
D0
Y
W
SC
64 VDD
D4
D5
D6
D7
A
B
2
D2
3
D1
4
D0
Y
5
6
XY
7
OE
8
CC
V
16
15
D4
14
D5
13
D6
12
D7
11
A
10
B
9
C
8 BIT SHIFT
REGISTER
1P1
PORT
DRIVER
2P2
3AD2
AD
DRIVER
4AD1
5SEG1
6SEG2
7SEG3
8SEG4
9SEG5
10SEG6
11SEG7
12SEG8
13SEG9
14SEG10
15SEG11
16SEG12
17SEG13
18SEG14
SEGMENT
DRIVER
19SEG15
20SEG16
21SEG17
22SEG18
23SEG19
24SEG20
25SEG21
26SEG22
27SEG23
28SEG24
29SEG25
30SEG26
31SEG27
32SEG28
ADRAM
16W × 2B
CGRAM
248W × 35B
CGRAM
8W × 35B
READ
ADDRESS
COUNTER
ADDRESS
SELECTOR
DCRAM
16W × 8B
WRITE
ADDRESS
COUNTER
TIMING
GENERATOR2
DIGIT
CONTROL
DUTY
CONTROL
COMMAND
DECODER
CONTROL
CIRCUIT
TIMING
GENERATOR1
OSCILLATOR
GRID
DRIVER
63 DA
62 CP
61 CS
60 RESET
59 OSC1
58 OSC0
57 GND
56 VFL
55 COM16
54 COM15
53 COM14
52 COM13
51 COM12
50 COM11
49 COM10
48 COM9
47 COM8
46 COM7
45 COM6
44 COM5
43 COM4
42 COM3
41 COM2
40 COM1
39
SEG35
38
SEG34
37
SEG33
36
SEG32
35
SEG31
34
SEG30
33 SEG29
78
Page 79
– P-AMP Board –
IC900 STR-V153
HCD-X10
D
N.C.
+
−
TSD
DRIVE
POWER
MOS FET
SOURCE/OCP
OVP
OCP
VCC
BLANKING
+
−
BUFFER
DELAY LATCH
OLP
+
−
DISCHARGE
5 841 2 3
6
7
GND
FB/OLP
N.C.
INTERNAL
BIAS
BURST
+
−
–
+
FB
UVLO
PRC LATCH
S
Q
R
+
−
OFF TIMER
+
−
STARTUP
IC901 STR-F6138-LF1352 (US and Canadian models)
IC901 STR-F6168-LF1352 (AEP and UK models)
CURRENT
MIRROR
OSC
DELAY
OVER
CURRENT
PROTECT
2
FEED
BACK
OVER
CURRENT
PROTECT
2
LOGIC
INH
2
BOTTOM
SKIP
LOGIC
INH
CURRENT
1
PROTECT
OVER
1
DELAY
SWITCHING
REGULATOR
BLOCK
OVER VOLTAGE
PROTECT
LATCH
THERMAL
SHUT DOWN
OVER LOAD
PROTECT
INTERNAL BIAS
UNDER VOLTAGE
LOCK OUT
1
OCP/INH
3
S/GND2DRAIN
4
VCC
5
FB/OCP
79
Page 80
HCD-X10
IC3002 TK11118CSCL-G
IC3015 TK11133CSCL-G
VIN
5
OVER HEAT &
OVER CURRENT
PROTECTION
1
VCONT
CONTROL
CIRCUIT
REFERENCE
BANDGAP
2
–
+
GND
IC3004 – 3006 CXD9876R
XFSOIN
48
47
XVDD
3
NP
HPVDDL
46 45
VOUT
4
HPOUTL1
HPVSSL
44 43
HPOUTL2
HPVDDR
42 41
HPOUTR1
HPVSSR40HPOUTR2
FSOCKO
FSOI
37
38
39
XVSS
VSUBC
VSSR
OUTR2
VDDR
OUTR1
VSSR
VSSL
OUTL2
VDDL
OUTL1
VSSL
CLOCK
GENERATOR
14
XOVSS
(SECONDARY)
INTERPOLATOR
15
XOVDD
XFSOOUT
LINER
16
DVDD
17
DVSS
MUTE
18
NSPMUTE
CONTROL
INIT/
19
SOFTMUTE
GAIN
20
PGMUTE
FILTER &
LOW CUT
SERIAL
CONTROLLER
21
22
SCDT
SCSHIFT
FILTER
23
SCLATCH
24
OVFFLAGR
SAMPLING
RATE
CONVERTER
1
2
3
4
5
6
7
8
9
10
11
12
PWM
∆ Σ
13
CLOCK
GENERATOR
(PRIMARY)
S g P
36
35
34
33
32
31
30
29
28
27
26
25
XFSIIN
DVDD
TEST
BFVSS
BFVDD
DATA
BCK
LRCK
MCKSEL
INIT
SFLAG
OVFFLAGL
80
Page 81
IC3007 – 3012 CXD9883M
BST_A
1
GVDD_A
2
Over
Current
Fault
36
35
HCD-X10
PVDD_A
PVDD_A
/OTW
/SD
/RESET
PWM_A
OC_ADJ
GND
AGND
VREG
M2
PWM_B
VDD
GND
GVDD_B
BST_B
3
4
5
6
7
8
9
10
M3
11
12
13
M1
14
15
16
17
18
Protection
Reset
Logic
OTP
CB3C
REG
and
OLP
VREG
Programmable
Current
Temperature
waming/error
/HIZ_HS_X
/HIZ_LS_X
/OCH_X
/OCL_X
/RESET_X
/PCR
Power-Up
/UVP
/UVP_VREG
VREG
Reset
sense
Stuck
Detect
Timing
Control
/UVP
Under
Voltage
Protection
Timing
Control
Stuck
Detect
/HIZ_HS_A
VREG
GVDD_A
GVDD_B
/HIZ_LS_A
/OCH_A
/OCL_A
/RESET_A
/HIZ_HS_B
/HIZ_LS_B
/OCH_B
/OCL_B
/RESET_B
Protection
Logic
Protection
Logic
Gate
Drive
Gate
Drive
Gate
Drive
Gate
Drive
Over
Current
Fault
Over
Current
Fault
Over
Current
Fault
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
PVDD_A
PGND
PGND
PGND
OUT_A
OUT_A
OUT_A
OUT_B
OUT_B
OUT_B
PGND
PGND
PGND
PVDD_B
PVDD_B
PVDD_B
IC3013 SI-8050JD-TP IC3014, 903 SI-3010KM-TL
1VC
1
VIN
REGULATOR
ON/OFF
SOFT START
OSC
+
–
COMPARATOR
ERROR AMP
RESET
+
–
OVER
CURRENT
PROTECTOR
OVER HEAT
PROTECTOR
VREF
2
SW OUT
3
GND
LATCH
&
DRIVER
4
5
VOS
ON/OFF
2VIN
3GND
TSD
–
+
REF
4VOUT
5ADJ
81
Page 82
HCD-X10
• IC Pin Function Description
MAIN BOARD IC1 ADSST-AVR-1115 (DSP)
Pin No. Pin Name I/O Description
1
2
3
4, 5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24 to 26
27
28
29, 30
31
32
33, 34
35
36, 37
38
39
40
41 to 43
44
45
46
47
48
49 to 52
53
54
55
VDDINT
CLKCFG0
CLKCFG1
BOOTCFG0,
BOOTCFG1
GND
VDDEXT
GND
VDDINT
GND
VDDINT
GND
VDDINT
GND
INT_REQ
DIR_ERR I PLL lock error signal and data error flag input from the digital audio interface receiver
AD7
GND
VDDINT
GND
VDDEXT
GND
VDDINT
AD6 to AD4
VDDINT
GND
AD3, AD2
VDDEXT
GND
AD1, AD0
WR*
VDDINT
GND
RD*
ALE
AD15 to AD13
GND
VDDEXT
AD12
VDDINT
GND
AD11 to AD8
A16
VDDINT
GND
-
Power supply terminal (+1.2V) (for core)
Core instruction rate to CLKIN (pin 142) ratio selection signal input terminal
I
Fixed at "L" in this set
Core instruction rate to CLKIN (pin 142) ratio selection signal input terminal
I
Fixed at "H" in this set
I
Boot mode selection signal input terminal Fixed at "H" in this set
-
Ground terminal
-
Power supply terminal (+3.3V) (for I/0)
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
O
Interrupt signal output to the system controller
I/O
Two-way address and data bus terminal Not used
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
-
Power supply terminal (+3.3V) (for I/0)
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
I/O
Two-way address and data bus terminal Not used
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
I/O
Two-way address and data bus terminal Not used
-
Power supply terminal (+3.3V) (for I/0)
-
Ground terminal
I/O
Two-way address and data bus terminal Not used
O
Write enable signal output terminal Not used
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
O
Read enable signal output terminal Not used
O
Address latch enable signal output terminal Not used
I/O
Two-way address and data bus terminal Not used
-
Ground terminal
-
Power supply terminal (+3.3V) (for I/0)
I/O
Two-way address and data bus terminal Not used
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
I/O
Two-way address and data bus terminal Not used
-
Not used
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
82
Page 83
Pin No. Pin Name I/O Description
56, 57
58
59
60
61
62
63
64, 65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80, 81
82
83
84, 85
86
87
88
89
90
91, 92
93
94
95
96
97 NONAUDIO*
98
99
100
101
102
103
104
105
106
107, 108
A17, A18
GND
VDDEXT
VDDINT
GND
PF_CE
SPI_MAS
DPSOA, DPSOB
VDDINT
GND
VDDINT
GND
DPSOC
DPSOD
VDDINT
VDDEXT
GND
VDDINT
GND
DPSOE
DPSIA
DPSIB
DPSIC, DPSID
DPSIE
VDDINT
GND
DPDVLRCK
DPDVBCK
DPLRCK
DPBCK
VDDINT
GND
VDDEXT
DPFSCK
GND
VDDINT
SF_CE*
VDDINT
GND
VDDINT
GND
VDDINT
GND
VDDINT
GND
VDDINT
-
Not used
-
Ground terminal
-
Power supply terminal (+3.3V) (for I/0)
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
-
Not used
-
Not used
O
Audio serial data output to the stream processor
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
O
Audio serial data output to the stream processor
O
Audio serial data output terminal Not used
-
Power supply terminal (+1.2V) (for core)
-
Power supply terminal (+3.3V) (for I/0)
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
O
Audio serial data output terminal Not used
I
Audio serial data input from the digital audio interface receiver
I
Audio serial data input from the digital audio interface receiver and servo DSP
I
Audio serial data input terminal Not used
I
Audio serial data input from the digital audio interface receiver and servo DSP
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
O
L/R sampling clock signal output to the stream processor
O
Bit clock signal output to the stream processor
I
L/R sampling clock signal input from the digital audio interface receiver and servo DSP
I
Bit clock signal input from the digital audio interface receiver and servo DSP
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
-
Power supply terminal (+3.3V) (for I/0)
I
Audio clock signal input from the digital audio interface receiver and servo DSP
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
I
PCM audio data input from the digital audio interface receiver
-
Not used
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
HCD-X10
83
Page 84
HCD-X10
Pin No. Pin Name I/O Description
109
110
111
112
113
114
115
116
117
118
119
120
121
122 SPIDS* I Device selection signal input from the system controller
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
GND
VDDINT
GND
VDDINT
GND
VDDINT
GND
VDDEXT
GND
VDDINT
GND
VDDINT
RESET*
GND
VDDINT
SPICLK
MISO
MOSI
GND
VDDINT
VDDEXT
AVDD
AVSS
GND
CLKOUT
EMU*
TDO
TDI
TRST*
TCK
TMS
GND
CLKIN
XTAL
VDDEXT
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
-
Power supply terminal (+3.3V) (for I/0)
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
I
Reset signal input from the system controller "L": reset
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
I
Serial data transfer clock signal input from the system controller
O
Serial data output to the system controller
I
Serial data input from the system controller
-
Ground terminal
-
Power supply terminal (+1.2V) (for core)
-
Power supply terminal (+3.3V) (for I/0)
-
Power supply terminal (+1.2V) (analog system)
-
Ground terminal (analog system)
-
Ground terminal
O
Local clock signal output terminal Not used
O
Emulation status signal output terminal Not used
O
Test data output terminal (for JTAG) Not used
I
Test data input terminal (for JTAG) Not used
I
Test reset signal input terminal (for JTAG) Not used
I
Test clock signal input terminal (for JTAG) Not used
I
Test mode select signal input terminal (for JTAG) Not used
-
Ground terminal
I
System clock input terminal (25 MHz)
O
System clock output terminal (25 MHz)
-
Power supply terminal (+3.3V) (for I/0)
84
Page 85
MAIN BOARD IC501 M30626MJP-A13FPU0 (SYSTEM CONTROLLER)
Pin No. Pin Name I/O Description
1
2
3 CEC_RX_IN I CEC serial data input from the HDMI OUT connector
4 SIRCS_IN I SIRCS signal input from the remote control receiver
5
6
7
8
9 CNVss
10 DSP_SPIDS O Device selection signal output to the DSP
11
12 RESET I
13 Xout O Main system clock output terminal (5 MHz)
14 Vss - Ground terminal
15 Xin I Main system clock input terminal (5 MHz)
16 Vcc1 - Power supply terminal (+3.3V)
17 NMI I Non-maskable interrupt input terminal Fixed at "H" in this set
18 DIR_ZERO I Audio serial data input from the digital audio interface receiver
19 DIR_CSFLAG I CSFLAG data input from the digital audio interface receiver
20
21
22 CEC_TX_OUT O CEC serial data output to the HDMI OUT connector
23
24 LED_PWM2
25 DC_DETECT I Over load detection signal input terminal
26 LED_PWM1
27
28 LED_PWM3
29 I2C_CLK I/O
30 I2C_DATA I/O
31 DVD_SID O Serial data output to the servo DSP
32 DVD_SOD I Serial data input from the servo DSP
33 DVD_SCO I Serial data transfer clock signal input from the servo DSP
34 DVD_XIFBUSY O Busy signal output to the servo DSP
35 CLINK_TX_OUT O
36 CLINK_RX_IN I
37 DVD XIFCS I Chip select signal input from the servo DSP
38 MTK RST O
39 SACD_SEL O Data selection signal output terminal
40
41 to 45
46
47
DAMP_SCDT/
DIR_DIN
DAMP_SHIFT/
DIR_CLK
DSP_MOSI
DSP_MISO
DSP_SPICLK
BYTE
DSP_RESET O Reset signal output to the DSP "L": reset
DRIVE_OCP
(DIAG)
DIR_HCE O Chip enable signal output to the digital audio interface receiver
DIR_RST O Reset signal output to the digital audio interface receiver "L": reset
DIR_ERR I Error signal input from the digital audio interface receiver
DIR_XSTATE I Source clock selection monitor input from the digital audio interface receiver
V_SEL0 to V_SEL4
DSP_SF_CE O Chip enable signal output terminal Not used
TV_SEL
O
Serial data output to the digital audio interface receiver and stream processor
O
Shift clock signal output to the digital audio interface receiver and stream processor
O Serial data output to the DSP
I Serial data input from the DSP
O Serial data transfer clock signal output to the DSP
I
External data bus width selection signal input terminal Fixed at "L" in this set
I Processor mode switch input terminal (for test)
System reset signal input from the reset signal generator "L": reset
For several hundreds msec. after the power supply rises, "L" is input, then it change to "H"
I
Shut down state input from the digital power amplifier "L": shut down
O LED drive signal output terminal
O LED drive signal output terminal
O LED drive signal output terminal
Two-way I2C clock bus terminal Not used
Two-way I2C data bus terminal Not used
Serial data output to the DMPORT 1 connector and DMPORT 2 connector
Serial data input from the DMPORT 1 connector and DMPORT 2 connector
Reset signal output to the servo DSP, HDMI controller and flash ROM "L": reset
O Video signal input selection signal output terminal
O Video signal input selection signal output terminal
HCD-X10
85
Page 86
HCD-X10
Pin No. Pin Name I/O Description
48 CLINK_SEL O Data selection signal output terminal for the DMPORT section
49 to 53
65, 66
69, 70
71, 72
79, 80
94, 95 KEY2, KEY1 I Key input terminal (A/D input) Not used
100
A_SEL0 to A_SEL4
54
55 TUNED I
56 ST_CLK O
57 ST_DO I
58 ST_CE
59 ST_DI O
60
61
62 Vcc - Power supply terminal (+3.3V)
63
64 Vss - Ground terminal
67
68 DSP_INTR I Interrupt signal input from the DSP
73
74 KEY INT I Wake up signal input terminal
75 RDS CLK I
76 RDS DATA I
77
78
81 CS O Chip select signal output to the touch sensor
82
83 MODE O Mode signal output to the touch sensor
84
85
86
87
88 CDM_OPEN_SW I Disc insert (8/12cm) detect switch input terminal "L": disc insert
89 CLINK_DET I Connect detection signal input from the DMPORT 1 connector and DMPORT 2 connector
90 DSP_MASTER - Not used
91
92 DESTINATION I
93 MODEL
96 Vss - Ground terminal
97 KEY0 I Front panel key input terminal for the power key (A/D input)
98 Vref I
99 Vcc - Power supply terminal (+3.3V)
MIC_SW I Audio cable detection signal input from the A.CAL MIC ECM-AC2 jack
DAMP INIT
DAMP SOFT
MUTE
DAMP LATCH1
DAMP LATCH2,
DAMP LATCH3
DRIVE_RST (EN)
OVERFLOW1,
OVERFLOW2
P_CONT1,
P_CONT2
AC_CUT
P_CONT3
P_CONT_TS
KEYIN1, KEYIN2
CLK
FL_RST O Reset signal output to the fluorescent indicator tube driver "L": reset
FL_CLK
FL_D_OUT
FL_CS O
P_CONT4
DIR_HDOUT I Read data input from the digital audio interface receiver
O Audio signal input selection signal output terminal
Tuning detection signal input from the tuner (FM/AM) "L": tuned
Serial data transfer clock signal output to the tuner (FM/AM)
Serial data input from the tuner (FM/AM)
O Serial chip enable signal output to the tuner (FM/AM)
Serial data output to the tuner (FM/AM)
O
Reset signal output to the stream processor "L": reset
O
Soft muting on/off control signal output to the stream processor "L": muting on
O
Serial data latch pulse signal output to the stream processor
O
Serial data latch pulse signal output to the stream processor
O
Reset signal output to the digital power amplifier "L": reset
I Over flow status input from the stream processor
O Power on/off control signal output terminal "H": power on
I
AC cut detection signal input terminal "L": AC cut on
RDS serial data transfer clock signal input from the tuner (FM/AM) (AEP and UK models only)
RDS serial data input from the RDS decoder (AEP, Russian and UK models only)
O Power on/off control signal output terminal "H": power on
O Power on/off control signal output terminal for the touch sensor "H": power on
I Touch sensor data input terminal
O Serial data transfer clock signal output to the touch sensor
O
Serial data transfer clock signal output to the fluorescent indicator tube driver
O Serial data output to the LED driver and fluorescent indicator tube driver
Chip select signal output to the fluorescent indicator tube driver
O Power on/off control signal output terminal "H": power on
Setting terminal for the destination
I Setting terminal for the model
Reference voltage (+3.3V) input terminal
86
Page 87
MAIN BOARD IC1105 CXD9804R (RF AMP, SERVO DSP, MPEG DECODER)
HCD-X10
Pin No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20, 21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
Pin Name I/O Description
AGND - Ground terminal
DVDA I AC coupled input path A
DVDB I AC coupled input path B
DVDC I AC coupled input path C
DVDD I AC coupled input path D
DVDRFIP I AC coupled DVD RF signal input from the optical pick-up block
DVDRFIN I AC coupled DVD RF signal input terminal Not used
MA I DC coupled main-beam RF signal input A
MB I DC coupled main-beam RF signal input B
MC I DC coupled main-beam RF signal input C
MD I DC coupled main-beam RF signal input D
SA I DC coupled sub-beam RF signal input A Not used
SB I DC coupled sub-beam RF signal input B Not used
SC I DC coupled sub-beam RF signal input C Not used
SD I DC coupled sub-beam RF signal input D Not used
CDFON I CD focusing error negative input terminal Not used
CDFOP I CD focusing error positive input terminal Not used
TNI I 3 beam satellite PD signal negative input from the optical pick-up block
TPI I 3 beam satellite PD signal positive input from the optical pick-up block
MDI1, MDI2 I Laser power monitor input from the optical pick-up block
LDO2 O Laser diode drive signal output to the optical pick-up block (for DVD)
LDO1 O Laser diode drive signal output to the optical pick-up block (for CD)
SVDD3 - Power supply terminal (+3.3V)
CSO O Central servo signal output terminal Not used
RFLVL O RFRP low pass output terminal Not used
SGND - Ground terminal
V2REFO O Reference voltage (+2.8V) output terminal Not used
V2O O Reference voltage (+2V) output to the optical pick-up block
VREFO O Reference voltage (+1.4V) output terminal
FEO O Focus error monitor output terminal Not used
TEO O Tracking error monitor output terminal Not used
TEZISLV O Slice level of tracking error signal output terminal Not used
OPOUT O Output from the internal operational amplifier Not used
OP_INN I Negative input to the internal operational amplifier Not used
OP_INP I Positive input to the internal operational amplifier Not used
DMO O Spindle motor control signal output to the motor driver
FMO O Sled motor control signal output to the motor driver
TROPENPWM O Loading motor control signal output terminal
IOPMON I Power monitor terminal
TRO O Tracking coil control signal output to the coil driver
FOO O Focus coil control signal output to the coil driver
USB_VSS - Ground terminal
USBP I/O USB communication data input/output terminal Not used
USBN I/O USB communication data input/output terminal Not used
USB_VDD3 - Power supply terminal (+3.3V)
SPFG I Spindle motor hall sensor input from the motor driver
87
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HCD-X10
Pin No.
48
49
50
51
52
53 to 61
62
63
64
65
66
67 to 72
73
74 to 76
77
78
79
80
81 to 84
85
86 to 88
89
90
91
92, 93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
Pin Name I/O Description
MSW
CKSW I Chucking detection switch input terminal
OCSW I Disc table open/close detection switch input terminal
EEWP O Write protect signal output to the EEPROM
DVDD18 - Power supply terminal (+1.8V)
HA2 to HA8,
HA18, HA19
DVSS - Ground terminal
APLLCAP - Connection terminal for an external capacitor
APLLVSS - Ground terminal
APLLVDD3 - Power supply terminal (+3.3V)
XWR O Write enable signal output to the flash ROM
HA16 to HA11 O Address signal output to the flash ROM
DVDD3 - Power supply terminal (+3.3V)
HA10, HA9,
HA20
XROMCS O Chip select signal output to the flash ROM
HA1 O Address signal output to the flash ROM
XRD O Read enable signal output to the flash ROM
DVDD3 - Power supply terminal (+3.3V)
HD0 to HD3 I/O Two-way data bus terminal with the flash ROM
DVSS - Ground terminal
HD4 to HD6 I/O Two-way data bus terminal with the flash ROM
HA21 O Address signal output to the flash ROM
ALE O Address latch enable signal output terminal Not used
HD7 I/O Two-way data bus terminal with the flash ROM
HA17, HA0 O Address signal output to the flash ROM
DVSS - Ground terminal
UWR O Write enable signal output terminal Not used
URD O Read enable signal output terminal Not used
DVDD18 - Power supply terminal (+1.8V)
IFSDO O Serial data output to the system controller
IFSCK O Serial data transfer clock signal output to the system controller
XIFCS O Chip select signal output to the system controller
IFSOI I Serial data input from the system controller
SCL O Serial data transfer clock signal output to the EEPROM
SDA I/O Two-way data bus with the EEPROM
TRG-SW I Trigger detection switch input terminal Not used
XRST O Reset signal output to the HDMI controller "L": reset
RXD I Receive data input terminal for UART communication when data writing to flash memory
TXD O Transmit data output terminal for UART communication when data writing to flash memory
DVDD3 - Power supply terminal (+3.3V)
ICE I ICE mode enable signal input terminal Not used
XSYSRST I Reset signal input from the system controller "L": reset
IR I IR control signal input terminal Not used
XTXINT O Interrupt request signal output terminal Not used
DQM0 O Data mask signal output to the SD-RAM
XIF5SY I Busy signal input from the system controller
O
CD/DVD selection signal output terminal "L": CD, "H": DVD
O Address signal output to the flash ROM
O Address signal output to the flash ROM
88
Page 89
HCD-X10
Pin No.
115
116
117, 118
119
120, 121
122
123 to 126
127
128 to 133
134
135
136
137
138
139
140
141
142
143
144
145
146, 147
148
149 to 151
152
153
154
155
156
157
158 to 160
161
162
163
164 to 166
167
168 to 172
173
174
175
176, 177
178
179
180
181
Pin Name I/O Description
RD7 I/O Two-way data bus with the SD-RAM
DVSS - Ground terminal
RD6, RD5 I/O Two-way data bus with the SD-RAM
DVSS - Ground terminal
RD4, RD3 I/O Two-way data bus with the SD-RAM
DVDD18 - Power supply terminal (+1.8V)
RD2 to RD0, RD15
DVDD3 - Power supply terminal (+3.3V)
RD14 to RD9 I/O Two-way data bus with the SD-RAM
DVSS - Ground terminal
RD8 I/O Two-way data bus with the SD-RAM
LINYSW I Limit detection switch input terminal
DQM1 O Data mask signal output to the SD-RAM
RWE O Write enable signal output to the SD-RAM
CAS O Column address strobe signal output to the SD-RAM
RAS O Row address strobe signal output to the SD-RAM
DVDD3 - Power supply terminal (+3.3V)
RCS O Chip select signal output to the SD-RAM
BA0 O Bank address signal output to the SD-RAM
DVSS - Ground terminal
BA1 O Bank address signal output to the SD-RAM
RA10, RA0 O Address signal output to the SD-RAM
DVSS - Ground terminal
RA1 to RA3 O Address signal output to the SD-RAM
DVDD18 - Power supply terminal (+1.8V)
RVREF - Not used
RCLKB - Not used
DVDD3 - Power supply terminal (+3.3V)
DRCLK O Serial data transfer clock signal output to the SD-RAM
CKE O Clock enable signal output to the SD-RAM
RA11, RA9, RA8
DVSS - Ground terminal
RA7 O Address signal output to the SD-RAM
DVSS - Ground terminal
RA6 to RA4 O Address signal output to the SD-RAM
DVDD3 - Power supply terminal (+3.3V)
SMPTE_Y (7) to
SMPTE_Y (3)
DVDD18 - Power supply terminal (+1.8V)
SMPTE_Y (2) O
DVSS - Ground terminal
SMPTE_Y (1),
SMPTE_Y (0)
VCLK
WIDE
ADSCK - Not used
TSD_M O Thermal shut down signal output to the motor/coil driver
I/O Two-way data bus with the SD-RAM
O Address signal output to the SD-RAM
Video signal output to the HDMI transmitter
O
Video signal output to the HDMI transmitter
Video signal output to the HDMI transmitter
O
O System clock (27 MHz) signal output to the HDMI transmitter
Normal/squeeze selection signal output to the video amplifier
O
"L": normal, "H": squeeze
89
Page 90
HCD-X10
Pin No.
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202, 203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218, 219
220
221
222
223
224
225
226
227
228
229
Pin Name I/O Description
DVDD3 - Power supply terminal (+3.3V)
MUTE O Muting signal output to the motor/coil driver
MUTE123 O Muting signal output to the motor/coil driver
FWD
REW
ADSDO O RGB signal selection signal output terminal (AEP and UK models only)
XDACS - Not used
DAVCC - Power supply terminal (+3.3V)
DACVDDC - For bandgap reference voltage terminal
FS - Full scale adjustment terminal
CIN - Not used
DAVSS - Ground terminal
YUV1
DAVDD - Power supply terminal (+3.3V)
YUV2
DAVSS - Ground terminal
YUV3
DAVDD - Power supply terminal (+3.3V)
YUV4 O
DAVSS - Ground terminal
YUV5, YUV6
DVDD3 - Power supply terminal (+3.3V)
VSYN O Vertical sync signal output to the HDMI transmitter and HDMI controller
YUV7 O Muting control signal output terminal Not used
SMBSY O Horizontal sync signal output to the HDMI transmitter
SMSCK O Serial data transfer clock signal output to the HDMI controller
SMSDI I Serial data input from the HDMI controller
SMSDO O Serial data output to the HDMI controller
XSMCS O Chip select signal output to the HDMI controller
DVDD3 - Power supply terminal (+3.3V)
ALRCK O L/R sampling clock signal output to the DSP and HDMI transmitter
ABCK O Bit clock signal output to the DSP and HDMI transmitter
ACLK O Master clock signal output to the DSP and HDMI transmitter
DVSS - Ground terminal
ASDATA0 O Audio serial data output to the DSP and HDMI transmitter
ASDATA1,
ASDATA2
SPDATA I Analog audio data input terminal Not used
DVDD18 - Power supply terminal (+1.8V)
ASDATA4 O Audio serial data output to the HDMI transmitter
DVSS - Ground terminal
GPIO - Not used
SPDIF O SPDIF digital audio signal output to the HDMI transmitter and digital audio interface receiver
RFGND18 - Ground terminal
RFVDD18 - Power supply terminal (+1.8V)
XTALO O System clock output terminal Not used
XTALI I System clock (27 MHz) signal input terminal
O Loading motor drive signal output terminal (forward direction)
O Loading motor drive signal output terminal (reverse direction)
OY signal output to the video amplifier (US and Canadian models only)
O Chroma signal output to the video amplifier (US and Canadian models only)
O Video signal output to the video amplifier
Chroma signal output to the video amplifier
O Component video signal output to the video amplifier
O Audio serial data output to the HDMI transmitter
90
Page 91
HCD-X10
Pin No.
230
231
232
233
234
235
236
237
238
239
240
241
242, 243
244
245
246
247
248
249
250, 251
252
253
254
255
256
Pin Name I/O Description
JITFO O Output terminal of the RF jitter meter
JITFN I Input terminal of the RF jitter meter
PLLVSS - Ground terminal
IDAC - Not used
PLLVDD3 - Power supply terminal (+3.3V)
LPFON O Data PLL loop filter output terminal
LPFIP I Data PLL loop filter input terminal
LPFIN I Data PLL loop filter input terminal
LPFOP O Data PLL loop filter output terminal
VDD3 - Power supply terminal (+3.3V)
VCM - Not used
VSS - Ground terminal
VREFP, VREFN - For reference voltage terminal
RFVDD3 - Power supply terminal (+3.3V)
RFRPDC O RF ripple detect output terminal
RFRPAC I RF ripple detect input terminal
HRFZC I High frequency RF ripple zero crossing terminal
CRTPLP O Defect level filter capacitor connecting terminal
RFGND - Ground terminal
CEQP, CEQN - Not used
OSP O RF offset cancellation capacitor connecting terminal
OSN O RF offset cancellation capacitor connecting terminal
RFGC O RF AGC loop capacitor connecting for DVD-ROM
IREF I Reference current input terminal
AVDD3 - Power supply terminal (+3.3V)
91
Page 92
HCD-X10
MAIN BOARD IC1701 CXD9873Q (HDMI TRANSMITTER)
Pin No.
1
2 to 9
10
11
12
13 to 20
21
22
23
24
25
26
27
28
29, 30
31
32, 33
34
35
36
37
38
39
40
41
42
43
44, 45
46, 47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
Pin Name I/O Description
DVSS - Ground terminal (digital system)
C0 to C7 I Digital chroma signal input terminal Not used
DVDD33 - Power supply terminal (+3.3V) (digital system)
VCK I
DVSS - Ground terminal (digital system)
Y0 to Y7 I
SSCK I Serial data transfer clock signal input from the HDMI controller
SSO I/O Two-way data bus with the HDMI controller
DVDD18 - Power supply terminal (+1.8V) (for digital core)
PWDN I Power down signal input from the HDMI controller "L": power down
RST I Reset signal input from the HDMI controller "L": reset
CLK I System clock (27 MHz) signal input terminal
INT O Interrupt signal output to the HDMI controller
DVSS - Ground terminal (digital system)
A7, A6 - Not used
TRAP2 I NTSC/PAL selection signal input from the HDMI controller
TRAP1, TRAP0 - Not used
MSCK I Serial data transfer clock signal input from the HDMI controller
MSD I/O Two-way data bus with EEPROM and HDMI controller
TYPE - Not used
ASDATA4 - Not used
VSYNC I Vertical sync signal input from servo DSP
HSYNC I Horizontal sync signal input from servo DSP
HTPLG I HDMI hot-plug detection signal input terminal
AVSS - Ground terminal (analog system)
PLLC0 - External capacitor ground terminal (for PLL)
PLLC1 - External capacitor connection terminal (for PLL)
PLL_AVDD3 - Power supply terminal (+3.3V) (analog system) (for PLL)
AVSS - Ground terminal (analog system)
TCKN
TCKP
AVDD3 - Power supply terminal (+3.3V) (analog system)
TX0N O TMDS data (negative) output to the HDMI OUT connector
TX0P O TMDS data (positive) output to the HDMI OUT connector
AVDD - Power supply terminal (+3.3V) (analog system)
TX1N O TMDS data (negative) output to the HDMI OUT connector
TX1P O TMDS data (positive) output to the HDMI OUT connector
AVDD3 - Power supply terminal (+3.3V) (analog system)
TX2N O TMDS data (negative) output to the HDMI OUT connector
TX2P O TMDS data (positive) output to the HDMI OUT connector
AVSS - Ground terminal (analog system)
SWING I HDMI output swing adjustment signal input terminal Not used
DAC_AVDD3 - Power supply terminal (+3.3V) (analog system) (for D/A converter)
VREF - Reference voltage terminal (for D/A converter)
FS - Full scale adjustment terminal (for D/A converter)
AVSS - Ground terminal (analog system) (for D/A converter)
System clock (27 MHz) signal input from the servo DSP
Video signal input from the servo DSP
O
TMDS clock signal (negative) output to the HDMI OUT connector
O
TMDS clock signal (positive) output to the HDMI OUT connector
92
Page 93
HCD-X10
Pin No.
65
66
67
68
69
70
71
72
73 to 76
77
78
79
80
Pin Name I/O Description
DAC_AVDD3 - Power supply terminal (+3.3V) (analog system) (for D/A converter)
AVSS - Ground terminal (analog system) (for D/A converter)
DAC_AVDD3 - Power supply terminal (+3.3V) (analog system) (for D/A converter)
GOComponent analog video signal (Y or green) output terminal Not used
AVSS - Ground terminal (analog system) (for D/A converter)
BOComponent analog video signal (Cb or blue) output terminal Not used
ROComponent analog video signal (Cr or red) output terminal Not used
SPDIF I SPDIF digital audio signal input from the servo DSP
AD3 to AD0 I Audio serial data input from the servo DSP
ACL I Master clock signal input from the servo DSP
ABCK I Bit clock signal input from the servo DSP
ALRCK I L/R sampling clock signal input from the servo DSP
DVDD18 - Power supply terminal (+1.8V) (for digital core)
93
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HCD-X10
MAIN BOARD IC1702 MB95F108ASPFV-GE1-H0701 (HDMI CONTROLLER)
Pin No.
1
2
3 to 6
7 to 10
11, 12
13
14
15
16
17
18
19, 20
21
22
23
24
25 to 29
30
31
32
33
34
35, 36
37, 38
39
40
41
42
43
44, 45
46, 47
48
49
50
51
52 to 57
58
59
60
Pin Name I/O Description
AVCC - Power supply terminal (+3.3V)
AVR I Reference voltage (+3.3V) input terminal
PE3/INT13 to
PE0/INT10
P83 to P80 - Not used
P71/TI0,
P70/TO0
MOD - Not used
X0 I System clock input terminal (10 MHz)
X1 O System clock output terminal (10 MHz)
VSS - Ground terminal
VDD - Power supply terminal (+3.3V)
PG0/(Cin) - Not used
PG2/X1A,
PG2/X0A
XRST I Reset signal input from the servo DSP and system controller "L": reset
VSYNC I Vertical sync signal input from the servo DSP
XSMCS I Chip select signal input from the servo DSP
XTXINT I Interrupt signal input from the HDMI transmitter
P03/INT03 to
P07/INT07
SDI I Serial data input from the servo DSP
SDO O Serial data output to the servo DSP
SCK I Serial data transfer clock signal input from the servo DSP
ADTG/TRG0/P13
PP00/P14 - Not used
PPG00/P20,
PPG01/P21
TO00/P22,
TO01/P23
EC0/P24 - Not used
SCL0 O Serial data transfer clock signal output to the HDMI OUT connector
SDA0 I/O Two-way data bus with the HDMI OUT connector
PPG1/PS2 - Not used
TRG1/PS3 - Not used
PPG10/P60 to
PPG11/P61
T010/P62 to
T011/P63
EC1/P64 - Not used
HDCP-SCL O Serial data transfer clock signal output to the HDMI transmitter and EEPROM
HDCP-SDA I/O Two-way data bus with the HDMI transmitter and EEPROM
HDCP-_WP O Write protect signal output to the EEPROM
P43/AN11 to
P36/AN05
P35/AN05 O Power on/off control signal output terminal for HDMI OUT connector "H": power on
XTXRST O Reset signal output to the HDMI transmitter "L": reset
XPWDN O Power down signal output to the HDMI transmitter "L": power down
- Not used
- Not used
- Not used
- Not used
- Not used
- Not used
- Not used
- Not used
- Not used
- Not used
94
Page 95
HCD-X10
Pin No.
61
62
63
64
Pin Name I/O Description
TRAP2 O NTSC/PAL selection signal output to the HDMI transmitter
SDA I/O Two-way data bus with the HDMI transmitter
SCK O Serial data transfer clock signal output to the HDMI transmitter
AVSS - Ground terminal
95
Page 96
HCD-X10
SECTION 7
EXPLODED VIEWS
NOTE:
• -XX and -X mean standardized parts, so they
may have some difference from the original
one.
• Color Indication of Appearance Parts
Example:
KNOB, BALANCE (WHITE) . . . (RED)
↑↑
Parts Color Cabinet's Color
7-1. PANEL (BOWL) SECTION
• Items marked “*” are not stocked since they
are seldom required for routine service. Some
delay should be anticipated when ordering
these items.
• The mechanical parts with no reference
number in the exploded views are not supplied.
• Accessories are given in the last of the
electrical parts list.
• Abbreviation
CND : Canadian model
The components identified by mark 0 or
dotted line with mark 0 are critical for safety .
Replace only with part number specified.
Les composants identifiés par une marque 0
sont critiquens pour la sécurité.
Ne les remplacer que par une pièce portant le
numéro spécifié.
The components identified by mark 9 contain
confidential information.
Strictly follow the instructions whenever the
components are repaired and/or replaced.
Les composants identifiés par la marque 9
contiennent des informations confidentielles.
Suivre scrupuleusement les instructions
chaque fois qu’un composant est remplacé et /
ou réparé.
top panel section
not supplied
2
1
Ref. No. Part No. Description Remark
1 A-1239-884-A PANEL (BOWL) ASSY
2 A-1239-882-A PANEL (LOADING) ASSY
3 4-977-358-01 CUSHION
not supplied
#3
not supplied
3
#1
Ref. No. Part No. Description Remark
#1 7-685-646-79 SCREW +BVTP 3X8 TYPE2 IT-3
#3 7-685-645-79 SCREW +BVTP 3X6 TYPE2 IT-3
#1
96
Page 97
n
7-2. TOP PANEL SECTION
HCD-X10
52
not supplied
not supplied
51
#3
53
#6
Ref. No. Part No. Description Remark
51 A-1246-784-A T-SENSOR BOARD, COMPLETE
52 1-828-338-11 WIRE (FLAT TYPE) (15 CORE)
53 A-1239-883-A TOP ASSY (US, CND)
53 A-1281-878-A TOP ASSY (AEP, UK)
not supplied
main sectio
#1
Ref. No. Part No. Description Remark
#1 7-685-646-79 SCREW +BVTP 3X8 TYPE2 IT-3
#3 7-685-645-79 SCREW +BVTP 3X6 TYPE2 IT-3
#6 7-685-533-19 SCREW +BTP 2.6X6 TYPE2 N-S
97
Page 98
HCD-X10
7-3. MAIN SECTION
104
not
supplied
103
105
#3
110
107
106
not
supplied
not supplied
106
108
#3
102
not supplied
not supplied
101
#3
#1
not supplied
111
#3
DVD
mechanism
deck section
109
#1
#4
not supplied
not supplied
chasis section
Note 1: In type-11 and type-12 of the MAIN board, the WIRE (FLAT
TYPE) (11 CORE) connected with CN507 on the MAIN board
is different.
Replace it for the WIRE (FLAT TYPE) (11 CORE) that is sure
to suit each type when you replace the WIRE (FLAT TYPE)
(11 CORE).
Refer to “NOTE OF REPLACING THE WIRE (FLAT TYPE)
(11 CORE) (CN507 ON THE MAIN BOARD – CN801 ON
THE DISPLAY BOARD)” (page 7) in servicing notes for the
combination of the WIRE (FLAT TYPE) (11 CORE).
Ref. No. Part No. Description Remark
* 101 4-921-941-01 CUSHION (FL)
102 3-378-109-12 CUSHION, SARANET
103 1-833-128-11 WIRE (FLAT TYPE) (11 CORE) (Type-11)
103 1-828-319-11 WIRE (FLAT TYPE) (11 CORE) (Type-12)
104 1-828-349-11 WIRE (FLAT TYPE) (17 CORE)
105 1-828-293-11 WIRE (FLAT TYPE) (5 CORE)
106 4-237-065-01 CLAMP (L35)
9 107 A-1314-229-A MAIN BOARD, COMPLETE (for SERVICE)
(Type-12) (US, CND)
9 107 A-1314-230-A MAIN BOARD, COMPLETE (for SERVICE)
(Type-12) (AEP, UK)
98
Note 2: If the wire (flat type) was replaced, fold it same as the
wire (flat type) before replacement.
Note 3: Don’t remove the wire (flat type) 24 core (CN1102).
If you remove the wire (flat type) 24 core (CN1102),
solder the bridge of optical pick-up.
Ref. No. Part No. Description Remark
108 1-828-367-11 WIRE (FLAT TYPE) (21 CORE)
109 1-830-688-51 WIRE (FLAT TYPE) (24 CORE)
110 3-531-576-01 RIVET
* 111 4-921-941-81 CUSHION (FL)
#1 7-685-646-79 SCREW +BVTP 3X8 TYPE2 IT-3
#3 7-685-645-79 SCREW +BVTP 3X6 TYPE2 IT-3
#4 7-685-872-01 SCREW +BVTT 3X8 (S)
Page 99
HCD-X10
5
7-4. CHASSIS SECTION
not supplied
(MIC-002 board)
(AEP, UK)
not supplied
not supplied
not supplied
(P-SW board)
#3
not
supplied
152
#3
#3
(US, CND)
#5
not
supplied
not
supplied
156
not
supplied
CN3005
157
not supplied
not supplied
154
F900
not supplied
155
(AEP, UK)
#1
#2
(US, CND)
#1
158
M3000
not supplied
(D IN-001 board: US, CND/
D IN-002 board: AEP, UK)
supplied
#1
with CN300
#1
159
#1
#1
160
#3
#3
Ref. No. Part No. Description Remark
151 A-1246-774-A DISPLAY BOARD, COMPLETE
152 A-1246-777-A AV-001 BOARD, COMPLETE (US, CND)
152 A-1246-780-A AV-002 BOARD, COMPLETE (AEP, UK)
154 A-1246-771-A P-AMP BOARD, COMPLETE (US, CND)
154 A-1246-772-A P-AMP BOARD, COMPLETE (AEP, UK)
155 1-693-724-11 TUNER (FM/AM) (AEP, UK)
155 1-693-731-11 TUNER (FM/AM) (US, CND)
156 1-823-660-11 WIRE (FLAT TYPE) (17 CORE) (US, CND)
156 1-828-338-11 WIRE (FLAT TYPE) (15 CORE) (AEP, UK)
157 1-828-347-11 WIRE (FLAT TYPE) (17 CORE) (US, CND)
157 1-828-357-11 WIRE (FLAT TYPE) (19 CORE) (AEP, UK)
158 1-828-951-11 WIRE (FLAT TYPE) (9 CORE) (US, CND)
158 1-828-961-11 WIRE (FLAT TYPE) (11 CORE) (AEP, UK)
159 3-703-244-00 BUSHING (2104), CORD
151
#3
161
#3
not supplied
not supplied
Ref. No. Part No. Description Remark
0 160 1-777-071-23 CORD, POWER (AEP, UK)
0 160 1-783-820-11 CORD, POWER (US, CND)
161 3-701-748-00 CLAMP
CN3005 1-820-403-11 SOCKET, D-SUB CONNECTOR 15P
(SPEAKER IMPEDANCE USE 4Ω)
0 F900 1-576-233-51 FUSE (H.B.C.) (T6.3AH/250V) (AEP, UK)
0 F900 1-576-537-12 FUSE, GLASS TUBE (DIA.5) (8A/125V)
(US, CND)
M3000 1-787-396-11 D.C. FAN (50 SQUARE)
#1 7-685-646-79 SCREW +BVTP 3X8 TYPE2 IT-3
#2 7-685-862-09 SCREW +BVTT 2.6X6 (S)
#3 7-685-645-79 SCREW +BVTP 3X6 TYPE2 IT-3
#5 7-685-647-79 SCREW +BVTP 3X10 TYPE2 IT-3
99
Page 100
HCD-X10
7-5. DVD MECHANISM DECK SECTION (CDM85-DVBU102)
401
(including disc tray open/close motor (M301),
MS-203 board)
402
not supplied
not supplied
not supplied
not supplied
(disc tray open/close
motor (M301))
403
(including sled motor,
spindle motor)
404
405
not supplied
(spindle motor)
not supplied
(MS-203 board)
404
404
405
405
404
405
not supplied
(sled motor)
Note: Refer to the Servicing Notes “HOW TO IDENTIFY
OPTICAL PICK-UP BLOCK” (page 8), if replacing the
Ref. No. 403.
Ref. No. Part No. Description Remark
401 A-6071-669-A LOADING ASSY (M)
(Including disc tray open/close motor (M301),
MS-203 board)
402 3-088-371-01 BELT
0403 8-820-290-02 OPTICAL PICK-UP BLOCK
(KHM-310CAA/C2RP)
(Including sled motor, spindle motor)
100
Ref. No. Part No. Description Remark
0 403 8-820-321-05 OPTICAL PICK-UP BLOCK
(KHM-313CAA/C2RP)
(Including sled motor, spindle motor)
404 2-634-618-01 INSULATOR
405 3-087-599-01 INSULATOR SCREW
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