Page 1
Super Audio CD / DVD Player
DV8400
11AK855010 MIT
First Issue 2003.03
TABLE OF CONTENTS
SECTION PAG E
1. TECHNICAL SPECIFICATIONS ...................................................................................................1
3. INFORMATIONS........................................................................................................................... 2
8. WIRING DIAGRAM ....................................................................................................................... 3
9. BLOCK DIAGRAM ........................................................................................................................ 5
10. SCHEMATIC DIAGRAM................................................................................................................ 7
11. PARTS LOCATION...................................................................................................................... 31
12. MICROPROCESSOR AND IC DATA........................................................................................... 36
13. EXPLODED VIEW AND PARTS LIST ......................................................................................... 45
14. ELECTRICAL PARTS LIST......................................................................................................... 48
DV8400 /F1N/N1G/S1G
/N1S/A1B/F1B/N1B/U1B
R
DV8400
Please use this service manual with referring to the user guide ( D.F.U. ) without fail.
Service
Manual
FL OFF
STANDBY
ON/OFFPOWE R
SACD/DVD PLAYER DV8400
OPEN/CLOSE
STOP
PAUSEPLAY
V-PART
GRP
TITLE
192kHz
96kHz
CHP
SURROUND
LAST
TOTAL
COND
REMAIN
5.1CH
DOWN MIX
VCD
TRKD OFF
PROGRESSIVE
DOLB
Y D
LFE
C
R
L
S
LS
RS
V OFF
REMARK:
This service manual shows only the differences between the model DV8300 and the
model DV8400.
This unit is a modifi ed version adding DVI-D output, RS-232C control terminal to the
DV8300 and making changes that come with the added functions.
All other information is described in the service manual of the model DV8300 (Code
number 02AK855010).
For the dispatch of the after-sales service parts, refer to those service manuals with the
fi rst priority. Therefore, please use this document with referring to the model DV8300
service manual without fail.
Page 2
MARANTZ DESIGN AND SERVICE
Using superior design and selected high grade components,
MARANTZ
company has created the ultimate in stereo sound.
Only original
MARANTZ
parts can insure that your
MARANTZ
product will continue to perform to the specifi cations for which
it is famous.
Parts for your
MARANTZ
equipment are generally available to our National Marantz Subsidiary or Agent.
ORDERING PARTS :
Parts can be ordered either by mail or by Fax.. In both cases, the correct part number has to be specifi ed.
The following information must be supplied to eliminate delays in processing your order :
1. Complete address
2. Complete part numbers and quantities required
3. Description of parts
4. Model number for which part is required
5. Way of shipment
6. Signature : any order form or Fax. must be signed, otherwise such part order will be considered as null and void.
SHOCK, FIRE HAZARD SERVICE TEST :
CAUTION : After servicing this appliance and prior to returning to customer, measure the resistance between either primary AC
cord connector pins ( with unit NOT connected to AC mains and its Power switch ON ), and the face or Front Panel of product and
controls and chassis bottom.
Any resistance measurement less than 1 Megohms should cause unit to be repaired or corrected before AC power is applied, and
verifi ed before it is return to the user/customer.
Ref. UL Standard No. 1492.
In case of diffi culties, do not hesitate to contact the Technical
Department at above mentioned address.
030307MIT
SUPERSCOPE TECHNOLOGIES, INC.
USA
MARANTZ AMERICA, INC
1100 MAPLEWOOD DRIVE
ITASCA, IL. 60143
USA
PHONE : 630 - 741 - 0300
FAX : 630 - 741 - 0301
JAPAN
Technical
MARANTZ JAPAN, INC.
35- 1, 7- CHOME, SAGAMIONO
SAGAMIHARA - SHI, KANAGAWA
JAPAN 228-8505
PHONE : +81 42 748 1013
FAX : +81 42 741 9190
EUROPE / TRADING
MARANTZ EUROPE B.V.
P. O. BOX 8744, BUILDING SILVERPOINT
BEEMDSTRAAT 11, 5653 MA EINDHOVEN
THE NETHERLANDS
PHONE : +31 - 40 - 2507844
FAX : +31 - 40 - 2507860
AUSTRALIA
QualiFi Pty Ltd,
24 LIONEL ROAD,
MT. WAVERLEY VIC 3149
AUSTRALIA
PHONE : +61 - (0)3 - 9543 - 1522
FAX : +61 - (0)3 - 9543 - 3677
NEW ZEALAND
WILDASH AUDIO SYSTEMS NZ
14 MALVERN ROAD MT ALBERT
AUCKLAND NEW ZEALAND
PHONE : +64 - 9 - 8451958
FAX : +64 - 9 - 8463554
THAILAND
MRZ STANDARD CO., LTD
746 - 754 MAHACHAI ROAD.,
WANGBURAPAPIROM, PHRANAKORN,
BANGKOK, 10200 THAILAND
PHONE : +66 - 2 - 222 9181
FAX : +66 - 2 - 224 6795
TAIWAN
PAI- YUING CO., LTD.
6 TH FL NO, 148 SUNG KIANG ROAD,
TAIPEI, 10429, TAIWAN R.O.C.
PHONE : +886 - 2 - 25221304
FAX : +886 - 2 - 25630415
MALAYSIA
WO KEE HONG ELECTRONICS SDN. BHD.
2ND FLOOR BANGUNAN INFINITE CENTRE
LOT 1, JALAN 13/6, 46200 PETALING JAYA
SELANGOR DARUL EHSAN, MALAYSIA
PHONE : +60 - 3 - 7954 8088
FAX : +60 - 3 - 7954 7088
AMERICAS
MARANTZ PROFESSIONAL PRODUCTS
2640 WHITE OAK CIRCLE, SUITE A
AURORA, ILLINOIS 60504 USA
PHONE : 630 - 820 - 4800
FAX : 630 - 820 - 8103
KOREA
MK ENTERPRISES LTD.
ROOM 604/605, ELECTRO-OFFICETEL, 16-58,
3GA, HANGANG-RO, YONGSAN-KU, SEOUL
KOREA
PHONE : +822 - 3232 - 155
FAX : +822 - 3232 - 154
SINGAPORE
WO KEE HONG DISTRIBUTION PTE LTD
130 JOO SENG ROAD
#03-02 OLIVINE BUILDING
SINGAPORE 368357
PHONE : +65 6858 5535 / +65 6381 8621
FAX : +65 6858 6078
HONG KONG
Jolly ProAudio Broadcast Engineering Ltd.
UNIT 2, 10F, WAH HUNG CENTRE,
41 HUNG TO ROAD, KWUN TONG, KLN.,
HONG KONG
PHONE : 852 - 21913660
FAX : 852 - 21913990
CANADA
LENBROOK INDUSTRIES LIMITED
633 GRANITE COURT,
PICKERING, ONTARIO L1W 3K1
CANADA
PHONE : 905 - 831 - 6333
FAX : 905 - 831 - 6936
TECHNICAL AUDIO GROUP PTY, LTD
43-53 Bridge Rd.,
STANMORE NSW 2048
AUSTRALIA
PHONE : +61 - (0)2 - 9519 - 0900
FAX : +61 - (0)2 - 9519 - 0600
AUSTRALIA
Page 3
1
General
System..................................... DVD-Video, DVD-Audio, DVD-R/RW,
Video-CD, SACD, CD and MP3 fi les
Power requirements
A Version .............................................................AC 240 V, 50 Hz
C Version .............................................................AC 220 V, 60 Hz
F Version....................................................... AC 100 V, 50 / 60 Hz
K Version .............................................................AC 220 V, 50 Hz
L Version..............................................................AC 110 V, 60 Hz
N Version .............................................................AC 230 V, 50 Hz
S Version ......................................................AC 230 V, 50 / 60 Hz
U Version .............................................................AC 120 V, 60 Hz
Power consumption
F Version................................................................................18 W
Other Version.........................................................................19 W
Weight ................................................................6.5 kg (13 lb 44 oz)
Dimensions.......................................440 (W) x 311 (D) x 89 (H) mm
(17 5/16 (W) x 12 1/4 (D) x 3 1/2 (H) in.)
(Not including protruding cables, etc.)
Operating temperature ...............+5 °C to +35 °C (+41 °F to +96 °F)
Operating humidity .............................5% to 85% (no condensation)
S-Video output
Y (luminance) - Output level....................................... 1 Vp-p (75 Ω )
C (color) - Output level : NTSC ............................ 286 mVp-p (75 Ω )
: PAL ............................... 300 mVp-p (75 Ω )
Jacks ..........................................................................S-VIDEO jack
Video output (2 individual outputs)
Output level................................................................. 1 Vp-p (75 Ω )
Jacks ..................................................................................RCA jack
Component video output (Y, C
B/PB, CR/PB)
Output level.........................................................Y : 1.0 Vp-p (75 Ω )
C
B/PB, CR/PB : 0.7 Vp-p (75 Ω )
Jacks ..................................................................................RCA jack
R / G / B output
Output level..............................................R / G / B : 0.7 Vp-p (75 Ω )
Jacks (N Version)....................................... 21 pin SCART connector
D1/D2 video output (except for N, U Version)
Output level.........................................................Y : 1.0 Vp-p (75 Ω )
C
B/PB, CR/PB : 0.7 Vp-p (75 Ω )
Jacks ................................................................................ D terminal
DVI-D output
Jacks ............................................................................DVI-D 24 pin
The interface is based on TMDS(Transition Minimized Differential
Signaling) tecnologe.
Audio output (2 individual outputs)
Output level
During audio output .............................. 200 mVrms (1 kHz, –20 dB)
Number of channels ........................................................................2
Jacks ..................................................................................RCA jack
Audio output (multi-channel / L, R, C, SW, LS, RS)
Output level
During audio output .............................. 200 mVrms (1 kHz, –20 dB)
Number of channels ........................................................................6
Jacks ..................................................................................RCA jack
Digital audio characteristics
Frequency response....................... 4 Hz to 44 kHz (DVD fs: 96 kHz)
4 Hz to 88 kHz (DVD-Audio fs: 192 kHz)
S/N ratio................................................................ more than 125 dB
Dynamic range ..................................................... more than 110 dB
Total harmonic distortion ..................................................0.00095 %
Wow and fl utter................. Limit of measurement(0.001% W. PEAK)
or lower
Digital output
Optical digital output.............................................Optical digital jack
Coaxial digital output .......................................................... RCA jack
Accessories
Audio/Video cord ............................................................................. 1
System Control cord........................................................................1
Power Cord......................................................................................1
Remote control unit .........................................................................1
AA (R6P) dry cell batteries .............................................................. 2
Operating Instructions .....................................................................1
1. TECHNICAL SPECIFICATIONS
Notifi cation
Concerning HDCP compatible DVI-D output
This product is equipped with an HDCP compatible
DVI-D output terminal, but its output format is not formally
authorized at this time for copyright protection reasons.
Therefore, when it is shipped, this output is not possible.
When the format has been formally authorized, an upgrade
will provide compatibility necessary to perform this output.
Page 4
2
6
7
9
13
Window
DVI
DVI is an abbreviation of Digital Visual Interface.
It is a digital display interface standard decided by DDWG
(Digital Display Working Group). This standard is to
transmit video signal in digital.
HDCP
HDCP is an abbreviation of High-bandwidth Digital
Content Protection.
This is a video signal encoding process system for DVI.
The purpose of HDCP is to protect video contents from
illegal copies. A display with HDCP adopted DVI input is
needed to receive the encoded signal.
3. INFORMATIONS
HOW TO CONFIRM THE RS-232C CONTROL FUNCTION
Necessary Equipment
• Windows PC
• RS-232C straight cable female-female
• Function check software (*DV8400RSR)
Operation procedure
1. Connect the RS-232C cable to the RS-232C connector on the rear panel of DV8400.
2. Turn on power of DV8400 and insert a CD disc.
3. Copy "232C_CONTROL" folder in (*DV8400RSR) to the PC.
4. Open the (*DV8400RSR) folder just copied to the PC.
5. Double click "Jig_DV8400_14.exe" to launch this communication software.
6. Select the COM port. (Ex. Com1)
7. Click "START".
8. Set the RS-232C CONTROL SW on the rear panel of DV8400 to RS-232C.
9. Click "PLAY" on the communication software in the PC.
10. If DV8400 turns into PLAY mode and time counter is indicated in window, this function check is OK.
11. Press STOP button.
12. Set the RS-232C CONTROL SW on the rear panel of DV8400 to RC-5/6.
13. Click "FINISH" on the communication software.
14. This function check is completed.
Page 5
3 4
8. WIRING DIAGRAM
JP50 J202
JP51 J208
JP52 J207
JP02
JP08
JP10
JP11
JP01
JP05 J701
J702
J001
J601 CN602
CN401
CN104
CN103 CN601
CN105
CN101 CN0000
J704CN501
J703 J201
JE01J705
J706 JE02
JF01 JE03
JF03 JF02
J803
J950
J851
J204
JI51
JF04
1
2
3
4
5
6
1
2
3
4
5
6
121
2
1
2
3
4
1
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4
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2
1
2
1
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1
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25
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26
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28
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30
19
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24
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123
4
123
4
12345
12345
123456789
101112
123456789
101112
123456789
101112
132514261516171819
20
212223
24
123456789
101112
132514261516171819
20
212223
24
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123456789
101112
13251426152716281729183019
20
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123456789
101112
13251426152716281729183019
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212223
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123456789
101112
13251426152716281729183019
20
212223
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123456789
101112
13251426152716281729183019
20
212223
24
123456789
101112
13251426152716281729183019
20
212223
24
123456789
101112
13251426152716281729183019
20
212223
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123456789
1011121314
15
1617181920
123456789101112131415
1617181920
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3
PS02
LIVE LIVE
NEUTRAL NEUTRAL
SW+12V
SW+12V
GND
GND
M-GND
M-GND
M-GND
M+6V
M+6V
M+6V
GND
GND
GND
GND
SW+5V
SW+5V
GND
GND
GND
GND
SW+3.3V
SW+3.3V
SW+3.3V
SW+3.3V
GND
STB_CTL
E+5V
HEATER
DC+3.5V
-28V -28V
DC+3.5V
HEATER
E+5V
STB_CTL
GND
SW+3.3V
SW+3.3V
SW+3.3V
SW+3.3V
GND
GND
GND
GND
SW+5V
SW+5V
GND
GND
GND
GND
M+6V
M+6V
M+6V
M-GND
M-GND
M-GND
GND
GND
SW+12V
SW+12V
LIVE
NEUTRAL
AC Inlet
XMSLAT2
GND
33MSACD
GND
BCLK
GND
XSAK
BD0
BD1
BD2
BD3
BD4
XDFSO
XDFSCK
XDFSI
XSRQ
XMSLAT
DSPA2
GND
GND
VCOSCD
GND
GND
RFSACD
GND
RD1
RD2
RD3
RD4
RD5
RD6
RD7
RD8
XSHD
BD7
BD6
BD5
XMSREADY
XMRST
XSACDSL
XMSLAT2
GND
33MSACD
GND
BCLK
GND
XSAK
BD0
BD1
BD2
BD3
BD4
XDFSO
XDFSCK
XDFSI
XSRQ
XMSLAT
DSPA2
GND
GND
VCOSCD
GND
GND
RFSACD
RD2
RD8
RD6
GND
RD1
RD3
RD5
RD4
RD7
XSHD
BD6
BD5
BD7
XMSREADY
XMRST
XSACDSL
MGND
SW+5V
MGND
GND
M+6V
GND
M+6V
SW+3.3V
12V
SW+3.3V
GND
SW+2.5V
GND
SW+2.5V
GND
GND
GND
DACCLK
NC
GND
NC
XCSAQE
GND
XAQRST
D_OUT
XDFSO
XAMYTE
XDFSCK
XMMUTE
GND
DATA1
BCK
DATA2
GND
XCSDF1
DATA0
XFRST1
LRCK
XFRST0
XCSDF0
MGND
SW+5V
MGND
GND
M+6V
GND
M+6V
SW+3.3V
12V
SW+3.3V
GND
SW+2.5V
GND
SW+2.5V
GND
GND
GND
DACCLK
NC
GND
NC
XCSAQE
GND
XAQRST
XDFSO
D_OUT
XMMUTE
XDFSCK
XAMYTE
GND
DATA1
BCK
DATA2
GND
XCSDF1
DATA0
XFRST1
LRCK
XCSDF0
XFRST0
BOARD TO BOARD CONNECTOR
ST1-
ST1+
ST2-
ST2+
GNDS
SW2
V+3D
LOAB+
LOAB-
A3A2A1
H1+
H1-
H2+
H2-
H3+
H3-
GNDS
V+5S
INSIDE
MECHA
FCCS RTN
TRKG DRV
TRKG RTN
FCCS DRV
1/2SW
B2
B1
A
VRREF(2.5V)
C
B4
B3
GND
RF-
GND
RF+
GND
GND
VCC
LD(780)
GND
MPD(780)
VSHF
MPD-VR
LD(650)
MPD(650)
BOARD TO BOARD CONNECTOR
DVDM
PS01
PD01
PM01
+3.3VD
A-GND
A-GND
+5VA
P_MUTE
-8VA
+3.3VDD
DAC-GND
DAC-GND
+5VDA
PMUTE
-8VDA
-8VA
+8VA
-8VAA
+8VAA
+8VA
-8VA
A-GND
A-GND
-8VA
+8VA
GND
GND
GND
GND
GND
XFRST1
DATA2/DSD-C
BCK/DSD-SW
LRCKOUT3
DSDCLKOUT3
MCLK3
XDFSCK
XDFS0
XCSDF1
GND
XMMUTE
DATA1/DSD-LS
BCK/DSD-RS
LRCKOUT2
DSDCLKOUT2
MCLK2
GND
XAMUTE
XFRSTO
DATA0/DSD-L
BCK/DSD-R
LRCKOUT1
DSDCLKOUT1
MCLK1
XCSDF0
GND
GND GND
GND
XCSDF0
MCLK1
DSDCLKOUT1
LRCKOUT1
BCK/DSD-R
DATA0/DSD-L
XAMUTE
XFRSTO
GND
MCLK2
DSDCLKOUT2
LRCKOUT2
BCK/DSD-RS
DATA1/DSD-LS
XMMUTE
GND
XCSDF1
XDFSCK
MCLK3
XDFS0
DSDCLKOUT3
LRCKOUT3
BCK/DSD-SW
DATA2/DSD-C
XFRST1
GND
GND
GND
SW+5V
D_OUT
D-GND
VSEL2
SQUEEZE
LETTER
VSEL1
D-GND
SDA0
SCL0
D-GND
D-GND
AV1CLK
D-GND
D-GND
XVQERST
VSYNC
HSYNC
PD0
PD1
PD2
PD3
PD4
PD5
PD6
PD7
XCSPRO2
VQESSO
VQESCK
D-GND
D-GND
CTS
DTR
RXD
TXD
XREADY
SSCK
S(FtoM)
S(MtoF)
XRESET
LT1
D-GND
SW+12V
SW+12V
V-GND
V-GND
E+5V
E+5V
V-GND
V-GND
SW+3.3V
SW+3.3V
D-GND
D-GND
STB_CTL
E+5V
HEATER
DC+3.5V
-28V
D-GND
D-GND
-28V
DC+3.5V
HEATER
E+5V
STB_CTL
D-GND
P_TRG
LT1
XRESET
S(MtoF)
S(FtoM)
SSCK
XREADY
D-GND
/TEST
D-GND
IR_SW
D-BUS
V-MUTEV_MUTE
D-BUS
IR_SW
D-GND
/TEST
D-GND
XREADY
SSCK
S(MtoF)
S(FtoM)
XRESET
LT1
D-GND
P_TRG
STB CONT
E+5V
Heater
DC+3.5V
-28V
D-GND
PF01
PF02
PD02
SAL
A-GND
SAR
V
V-GND
V/Y
V-GND
R/C
V-GND
G
V-GND
B
RGB SW
F-SW
+12VV
R/C
V-GND
V/Y
V
V-GND
RGB SW
V-GND
B
F-SW
G
+12VV
V-GND
A-GND
SAL
SAR
ONLY N
STB_LEDSTB_LED
GNDGND
NEUTRAL
LIVE
H3-
RF-
MPD(650)
GND
ST2-
MPD(780)
V+3D
A2
B1
TRKG RTN
H3+
INSIDE
GND
LD(650)
GND
ST1+
GND
SW2CA3
B2
TRKG DRV
H2-
V+5S
B3
MPD-VR
RF+
ST1-
LD(780)
GNDS
LOAB-
H1+
1/2SW
VRREF(2.5V)
H2+
GNDS
FCCS RTN
B4
VSHF
GND
VCC
ST2+
LOAB+
A1
A
FCCS DRV
H1-
Carriage motor
Spindle motor
D-GND
XVQERST
SW+5V
PD1
SQUEEZE
PD5
D-GND
D-GND
PD0
VSEL2
D-GND
PD4
XCSPRO2
SCL0
D-GND
HSYNC
D-GND
VQESCK
PD3
VSEL1
PD7
SDA0
AV1CLK
VSYNC
D_OUT
VQESSO
PD2
LETTER
PD6
D-GND
V-GND
D-GND
TXD
D-GND
S(MtoF)
DC+3.5V
SW+12V
V-GND
RXD
D-GND
S(FtoM)
HEATER
D-GND
V-GND
E+5V
DTR
SW+3.3V
SSCK
E+5V
LT1
D-GND
V-GND
E+5V
CTS
SW+3.3V
XREADY
STB_CTL
XRESET
-28V
SW+12V
RXD
GND
XVQERST
PD(3)
LETTER
GND
S(F-TO-M)
S(M-TO-F)
GND
HSYNC
PD(6)
PD(4)
VSEL1
XREADY
TXD
GND
PD(0)
VSEL2
VQESSO
PD(5)
GND
CTS
SCL0
XRESET
AV1CLK
PD(1)
GND
VQESCK
XCSPRO2
N.C.
SSCK
GND
LT1
VSYNC
PD(2)
SQUEEZE
N.C.
PD(7)
SDA0
DTR
S(M-TO-F)
PD(4)
LT1
GND
PD(5)
VQESCK
GND
DTR
S(F-TO-M)
XVQERST
PD(6)
SDA0
TXD
VQESSO
SCL0
GND
XCSVE5
SQUEEZE
SSCK
GND
GND
HSYNC
XREADY
VSEL2
CTS
PD(1)
AV1CLK
PD(2)
P/XN
LETTER
GND
RXD
VSEL1
PD(0)
GND
XRESET
VSYNC
XCSPRO2
PD(3)
PD(7)
DB-VPB305
DB-VLD302
123456
123456
J711 JH01
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
Page 6
65
9. BLOCK DIAGRAM
DB-VLD302
DB-VPB305
TP50
AUDIO TRANS.
CP50,CP51,QP55,QP63
DP50,DP51,DP52,DP53
RECTIFIERS &
VOLTAGE REGULATORS
AC LINE FILTER
LP01,CP01,CP02 DP01
RECTIFIER
SWITCHING
QP01,QP02
CIRCUIT
SNUBBER CIRCUIT
DP02,CP06,RP06,RP11
RECTIFIERS & VOLTAGE REGULATORS
DP04,CP14,DP07,CP16,DP11,DP12,CP19,DP14
CP21,DP17,CP24,QP06,QP07,QP08
TP01
SWITCHING TRANS
PHOTO CUPPLER
QP03
VOLTAGE
QP04
DETECTOR
STB_CTL
HEATERDC+3.5V-28VE+5VM+6VSW+5VSW+12VSW+3.3V+3.3VD+5VA+8VA -8VA
SP01
WO01
RF IC
LA9701M LC78652W
SERVO DSP
PE5220AM56788AFP
DVD DECODERFTS DRIVER
PD6345A
MPEG2 DECODER
SYSTEM CONTROL CPU
M65774BFP
DVD AUDIO DSP
XCA56367PV150
POWER SUPPLY BLOCK
(PS01)
DVDM : DVD MECHA MODULE BLOCK
PICK UP
SPDL- M
LOADING MECHA BLOCK
Q601
SACD
Q602
16M SDRAM
DECODER
SELECTOR
Q711
Q712
Q713
SACD BLOCK
(PD01)
QD01
AUDIO DAC
LPF
LPF
LPF
AUDIO DAC
QD21
LPF
LPF
QD41
AUDIO DAC
LPF
HDAM
HDAM
HDAM
L/FL
R/FL
SURRL
SURRR
CENTER
SUB WOOFER
REMOTE
JI01
JI03
DIG OUT
COAX
QV04
QV08
QV06
LPF
LPF
LPF
QV09
QV07
QV05
QB02
LPF
QY02
LPF
QC02
LPF
QA04
QA02
QA03
LPF
LPF
Q858
Q852
LPF
Q855
Q861
6dB
Q860
6dB
Q853
6dB
6dB
Q856
Q859
6dB
QB01
QC01
QY01
RY23
RB23
RC23
RA49
RA47
RA45
RA48 &
RC25
RB25
RA46 &
RY25
RA44 &
Y/G
CB/B
N
EXCEPT N
V
Y
G
B
C
R
V
Y
C
QV11
VIDEO
AMP
VIDEO
QY04
AMP
ENCODER
QA01
12BIT
VIDEO
PROGRESSIVE
QE01
HI-QUALITY
VIDEO
ENCODER
QE02
64M SDRAM
JV01
ASPECT
C
Y
V
V
S1/S2
JV02
COMPONENT
JY01
JY02
D2
Terminal
for F,A,C,
L,S
TV-
J801
SCART
for N
ASPECT
I/P
Y
CB
CR
Y
CR
CB
OPT
DIG OUT
JI04
VIDEO & AUDIO BLOCK
KEY NETWORK
PLAY STOP PAUSE
OPEN/
CLOSE
PREV NEXT FL OFF
RESET
IC
QF04
IR
8MHz
XF01
ZF01
DISPLAY BLOCK (PF01)
OF01
TMP87PM74F
MAIN CPU
EEP-ROM
OF08
VF01
FL DISPLAY
&
CR/R CR
CB
Y
C
Y
V
V
CB
CR
Y
J203
J205
QI03
CONTROL
COMPOSITE
QH71
CONTROL CPU
VIDEO
CONVETER
QH21
SCAN
I/P
QH22
16M SDRAM
for SiI 504
QI61
SUB CPU
TRANSMITTER
QT03
DVI
QI81
DRIVER
RS232C
DVI-D
JT01
JI91
RS232C
HD64F3672FX
MC504
SiI 504
uPD4721
SiI 170B
Page 7
7 8
10. SCHEMATIC DIAGRAM
FA3647
A-GND
1D3
1D3
1D3
1D3
DTC114EU
2SC4081
DTA114EU
A-GND
78M05
A-GND
1D3
A-GND
+8VA
+5VA
-8VA
1D3
1D3
A-GND A-GND A-GND
2SC4081
2SC4081
A-GND
DTC114TUA
A-GND
A-GND
2SA1586
2SC4081
A-GND
1D3
1D3
LF-4D-223
GND
GND
S1WB(A)60
HOT
2SK2943
PC123F2
1SS254
HOT
HOT
GND
TL431
GND
GND
EK19
GND
SI-3120F
GND
GND
1D3
GND
GND
GND
GND
1D3
GND
RK46
GNDGND
SI-3050C
GND
1SS254
GNDGND
AG01
AG01
2SC1627
GND
GND
GND
GNDGND
RK33
RK33
A-GND
GND
EARTH EARTH
GND GND
STB_CTL
STB_CTL
2SD1762
2SB1453
+5VA
-8VA
M-GND
2SC1740
1SS301
1SS301
2SC4081
2SA1586
NJU7200L33
D-GND
D-GND D-GND
+3.3VD
PQ3RF33
GND
1D3
EARTH
+3.3VD
A-GND
+8VA
-8VA
GND
-28V
DC+3.5V
HEATER
E+5V
STB_CTL
GND
SW+3.3V
SW+3.3V
SW+3.3V
SW+3.3V
GND
GND
GND
M-GND
GND
M-GND
SW+5V
GND
SW+5V
GND
GND
SW+12V
GND
SW+12V
GND
GND
M+6V
M+6V
M+6V
M-GND
NL
C
B
E
GND
OUTIN
C
BEC
B
E
C
B
E
CBE
D
G
S
C
B
E
C
B
E
C
B
E
C
B
E
CBE
C
B
E
GND
OUTIN
+3.3VD
A-GND
A-GND
+5VA
P_MUTE
-8VA
+8VA
A-GND
A-GND
-8VA
-8VA
+8VA
NLNL
STB_CTL
STB_CTL
LPS
TO PM01
AUDIO
TO PD01
SACD
F,L,U A,C,N,S
FP01 2A/125V T2AL/250V
CP03,04 470p/250V 220p/250V
CP05 220/200V 120/400V
RP01 2.2M/1/2W 1M/1W
NOTE ON SAFETY:
The parts marked with are impor tant
parts on the safety.
Please use the parts having the designated parts
number without fail.
+10.4V
+7.3V
+6.7V
+1.2V
+2.4V
+0V
+5.4V
+7.5V
+7.2V
+7.4V
+7.4V
+0.6V
+10.0V
+0V
+8.8V
+8.8V
+8.2V
+7.5V
+0.6V
-8.6V
-8.6V
-8.0V
+5.0V
+3.3V
-10.4V
+5.0V
+14.2V
+5.2V
+4.2V
+2.5V
+12.7V
+6.1V
+4.1V
+4.7V
-14.0V
-14.7V
-14.9V
-28.4V
-29.0V
-8.9V
+7.5V
-29.0V
-15.4V
-19.0V
+5.3V
+3.4V
+3.3V
+5.0V
+6.1V
+12.2V
V: PLAY
+3.3V
+5.0V
-7.4V
1
2
3
4
5
6
7
8
9
8765
123 4
30
29
28
27
26
25
24
23
22
21
20
19
18
6
17
5
16
4
15
3
14
2
13
1
12
11
10
9
8
7
12
211
2
21
1
2
3
1
2
3
3
2
1
2
31
1
2
3
1
2
3
1
2
3
123123
4
1
2
3
2
1
34
1
2
3
41
32
2
1
3
3
12
5
4
3
12
5
4
24
1
2
3
213
213
1
2
3
4
5
6
7
8
9
10
11
12
13
14
50V
123
31
2
31
2
1
2
3
123
1
32
2
34
1
1
2
3
4
5
6
1
2
3
4
1
2
2121
2W
31
2
31
2
0.1/250v
2200/16V
2200/16V
47k 15k
47k
3.9V
15k
220
220
47/16V
47/16V
220/16V220/16V
220/10V
1k
10k
0.1/50V
3.3M
10/50V
47k47k
22k
10k
5.6V
47k
2200/16V
250VT500mA
250VT500mA
0.1/250V
120K
120K
120K
120K
150P 2kV
10 1W
68
10k
0.22 2W
120k
47 1W
22/50V
22V
10
330k
0.22
0.33
56k
100
150
4700p
0.1
100
470
1k
3.3k
1k
5.6k
4.7k
220/25V
100/16V
1000/10V
220/10V
47
470/10V
47/50V
4.7k
13V
220/10V
330
4.7k
0.01
3.3
0.01
10k
10V 5.1V
470/10V
1000/16V
220/250V
20V
9.1V
47/50V
10k
N.C.
1
T250mA/250V
9.1V 20V
680
100/10V
47/10V
10
0.1
0.47
9.1V
9.1V
T2.5A/250V
TP50
QP02
JP05
FP01
JP03
JP04
JP02JP08
JP01
CP01
DP52
DP53
DP50
DP51
CP50CP51
QP50
RP50
QP52
RP51
RP53
QP51
DP58
RP54
RP52
RP55
CP53 CP52
CP54CP55
QP55
DP61
CP56
SP01
DP57
DP56
RP56
RP57
CP58
RP58
CP59
QP56
QP57
RP60RP59
RP61
QP60
RP63
DP64
QP59
RP62
QP58
CP57
DP55
DP54
FP51
FP50
LP01
CP02 CP03CP04
RP02
RP03
RP05
RP04
RP01
DP01
CP05
CP06
RP11
QP01
QP03
DP02
RP06
RP07
RP12
RP10
RP09
CP07
DP03
RP08
RP13
CP09
CP08
RP14
RP15
RP16
CP10
CP11RP17
RP18
QP04
RP19
RP20
RP21
RP22
RP23
DP17
CP24
QP08
CP25
DP18
CP21
DP15
CP23
DP14
QP07
LP03
CP22
DP16
CP14
RP25
DP04
DP10
DP07
CP16
QP05
RP28
RP27
CP17
RP29
CP18
RP31
DP08 DP09
CP20
CP19
DP11
DP12
CP12
JP06 JP07
DP05
DP06
CP15
RP26
RP24
QP53
QP54
TP01
CP13
FP02
DP20 DP19
RP32
QP09
DP62
DP63
QP61
QP62
QP63
CP60
CP61
LP50
QP06
DP21
JP09
JP50
JP52
JP51
JP10 JP11
CP27
RP33
DP59
DP60
FP03
PS01
PS02
Page 8
109
x4 x4
+3.3V
+3.3V
+3.3V
+3.3V
+3.3V
+3.3V
+3.3V
+3.3V
HY57V161610DTC-8
CXD2753R
D-GND
V+2C
V+2C
V+3IO SW+3.3V
V+2C V+2V
V+3DSD SW+3.3V
V+2C
V+3IO
V+2C
V+3IO
V+2C
V+3IO
V+2C
D-GND
V+3_SDRAM SW+3.3V
D-GND
SW+3.3V
SW+3.3V
33M
D-GND
D-GND
D-GND
SACDSL
DSDCLK
DSD-C
DSD-SW
DSD-LS
DSD-RS
DSD-L
DSD-R
D-GND D-GND
SACDSL
D-GND
SW+3.3V
D-GND D-GND D-GND D-GND D-GND
V+2V
TC74VHC74FT
BA25BC0FP
DCLK
SACDSL
SACDSL
WAREFI
DQ[0]
DQ[1]
DQ[2]
DQ[3]
DQ[4]
DQ[5]
DQ[6]
DQ[7]
XWE
XCAS
XRAS
A[11]
A[10]
A[0]
A[1]
A[2]
A[3]
DCKE
A[9]
A[8]
A[7]
A[6]
A[5]
A[4]
WAD[0]
WAD[1]
WAD[2]
WAD[3]
WAD[4]
WAD[5]
WAD[6]
WAD[7]
SDCK
MSDATAI
MSCK
MSDATAO
XSRQ
XMSLAT1
XSDEF
MSREADY
XRST
WCK
WAREFI
WAD[0]
WAD[1]
WAD[2]
WAD[3]
WAD[4]
WAD[5]
WAD[6]
WAD[7]
XSHD
SD[7]
SD[6]
SD[5]
XSAK
SD[0]
SD[1]
SD[2]
SD[3]
SD[4]
XMSLAT1
MSCK
MSDATAI
XRAS
XCAS
XWE
DCKE
DCLK
DQ[0]
DQ[1]
DQ[2]
DQ[3]
DQ[5]
A[11]
A[10]
DQ[4]
DQ[6]
DQ[7]
XSRQ
XSHD
SDCK
XSAK
XSDEF
SD[0]
SD[1]
SD[2]
SD[3]
SD[4]
SD[5]
SD[6]
SD[7]
A[9]
A[8]
A[7]
A[6]
A[5]
A[4]
A[3]
A[2]
A[1]
A[0]
DSARS
DSALS
DSALFE
DSAC
DSAR
DSAL
DSD-C
DSD-SW
DSD-LS
DSD-RS
DSD-L
DSD-R
DSAC
DSALFE
DSALS
DSARS
DSAL
DSAR
DSDCLK
WCK
MCK
XRST
MSREADY
MSDATAO
12345678910111213141516171819202122232425
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
123456789
1011121314151617181920212223242526272829303132
176
175
174
173
172
171
170
169
168
167
166
165
164
163
162
161
160
159
158
157
156
155
154
153
152
151
150
149
148
147
146
145
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
3334353637383940414243
44
77
78
79
80
81
82
83
84
85
86
87
88
100
9998979695949392919089
144
143
142
141
140
139
138
137
136
135
134
133
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
24
5
3
1357
2 4 6 8
1357
2468
1
2
3
14
6
5
4
7
123
1
2
4
5
3
VCC
DQ0
DQ1
VSSQ
DQ2
DQ3
VCCQ
DQ4
DQ5
VSSQ
DQ6
DQ7
VCCQ
LDQM
XWE
XCAS
XRAS
XCS
A11
A10
A0A1A2
A3
VCCVSS
A4A5A6A7A8A9NC
CKE
CLK
UDQMNCVCCQ
DQ8
DQ9
VSSQ
DQ10
DQ11
VCCQ
DQ12
DQ13
VSSQ
DQ14
DQ15
VSS
VSC
XMSLAT
MSCK
MSDATI
VDC
MSDATO
MSREADY
XMSDOE
XRST
SMUTE
MCKI
VSIO
EXCKO1
EXCKO2
LRCK
FRAME
VDIO
MNT0
MNT1
MNT2
MNT3
TESTO
TESTO
TESTO
TESTO
TCK
TDI
VSC
TDO
TMS
TRST
TEST1
SD7
SD6
SD5
SD4
SD3
SD2
SD1
SD0
XSDEP
XSAK
SDCK
VSHD
VSRQ
VDIO
A0
A1
A2
A3
VSIO
A4
A5
A6
A7
DVDC
A8
A9
VSC
A10
A11
TEST0
VDIO
XRAS
VDIO
SUPDT6
SUPDT7
XSUPAK
VSC
TESTO
TESTI
TESTI
TESTO
TESTO
TESTO
TESTO
BCKASL
VSDSD
BCKAI
BCKAO
PHREFI
PHREFO
ZDFL
DSAL
ZDFR
DSAR
VDDSD
ZDFC
DSAC
ZDFLFE
DSALFE
VSDSD
ZDFLS
DSALS
ZDFRS
DSARS
DQ6
DQ7
VSIO
WAVSS
WAVSS
WAVRB
WARFI
WAVDD
WAVDD
WCK
TESTI
VDC
WAD7
WAD6
WAD5
WAD4
VSC
VSIO
WAD3
WAD2
WAD1
WAD0
VDIO
TESTI
TESTI
TESTI
VSIO
TESTI
TESTI
TESTI
TESTI
TESTI
TEST2
TEST3
VDC
TESTO
XBIT
SUPDT0
SUPDT1
SUPDT2
SUPDT3
VSIO
SUPDT4
SUPDT5
VDDSD
TESTO
TESTO
VSC
TESTO
TESTO
VDC
TESTO
TESTO
VSIO
TESTO
TESTI
TESTI
VDC
TESTO
TESTI
TESTI
TESTI
VSC
TESTO
TESTO
TESTO
VDIO
TESTI
XCAS
XWE
DCKE
DCLK
VSIO
DQ0
DQ1
DQ2
DQ3
VDIO
DQ4
DQ5
XMSLAT2
GND
33MSACD
GND
BCLK
GND
XSAK
BD0
BD1
BD2
BD3
BD4
XDFSO
XDFSCK
XDFSI
XSRQ
XMSLAT
DSPA2
GND
GND
VCOSCD
GND
GND
RFSACD
GND
RD1
RD2
RD3
RD4
RD5
RD6
RD7
RD8
XSHD
BD7
BD6
BD5
XMSREADY
XMRST
XSACDSL
CLR
D
CLK
VCC
Q
Q
PR GND
0.47
47
0.47
0.47
0.01
0.47
0.01
100/6.3V
0.47
0.47
0.47
0.47
100/6.3V
0
0.47
100/6.3V
0
0.47
0.47
100/6.3V
0
0
N.C
0.47
0.47
N.C.
0
N.C.
0.47
100/6.3V
47p
N.C.
22
N.C.
N.C.
22
N.C.
0.47
0.47
0.47
0.47
0.47
0.47
0.47
0.47
100/6.3V
0
0
N.C.
N.C.
N.C.
10p
22
0
N.C.
N.C.
0
0
N.C.
0
N.C.
22
1
N.C.
N.C.
0
N.C.
0
22
N.C.
47
0
N.C.
N.C.
N.C.
N.C.
N.C.
N.C.
N.C.
0
N.C.
0
0
0
22
22
22
N.C.
N.C.
N.C.
0
22
0
22
22
22
0
0
0
0
0
0
0
N.C.
N.C.
N.C.
100/6.3V
0.47
0
22
22
22
22
22
22
10k 10k
22
100/6.3V
0.47
0.47
100/6.3V
0.47
0.47
TS7SH08FU
Q602
Q601
J601
C626
R607
C614
C608
C624
C623
C625
C621
C620
C622
C619
C618
C617
R606
C616
C615
R605
C611
C610
C612
R604
R603
R602
C609
C607
C604R601
C603
C602
C601
C632
C633
R609
C631
C630
R608
C628
C627
C636
C641
C640
C638
C637
C639
C635
C634
R610
R622
Q605
R623
C648
C647
R620
R663
C645
R621
R618
R617
C643
R619
C644
R616
C642
R613
C662
R614
R615
R632
R631
C654
R646
R647
R648
R649
R651
R650
R652
R653
R655
R656
R654
R657
R658
R659
R660
R661
R662
C659
C660
C661
R645
R644
R643
R642
R640
R641
R639
R637
R635
R636
R638
R634
R633
C656
C657
C658
C649
C650
L601
R625
R626
R627
R628
R629
R630
R611 R612
R624
C651
C652
C653
C605
C606
C646
Q604
Q606
Q603
PD01-1/2
FROM
DVDM
Page 9
11 12
D-GND
TC7SHU04FU
D-GND
SW+3.3V
D-GND
TC7SHU04FU
SW+3.3V
D-GND
TC7SHU04FU
SW+3.3V
D-GND
N.C.
SW+3.3V
TC74VHC157FT
TC74VHC157FT
TC74VHC157FT
TC7WH157FU
D-GND
SW+3.3V
D-GND
D-GND
SW+3.3V
D-GND
D-GND
SW+3.3V
D-GND
TC7WH74FU
SW+3.3V
D-GND
TC7SH86FU
TC7SH32FU
TC7SH32FU
SW+3.3V
D-GND
D-GND
D-GND
D-GND
SW+3.3V
SW+3.3V
SW+3.3V
D-GND
D-GND
D-GND
TC7SH32FU
D-GND
SW+3.3V
33M
DSDCLK
DSD-C
DSD-SW
DSD-L
DSD-LS
DSD-RS
DSD-R
SACDSL
D-GND
D-GND
D-GND D-GND
SW+2.5V
D-GND
D-GND
D-GND
SW+3.3V
D-GND
SW+3.3V
SW+12V
M+6V
SW+2.5V
M+6V
SW+3.3V
SW+12V
D_OUT
D_OUT
D-GND
D-GND
D-GND
D-GND
D-GND D-GND
D-GND EARTH
BA25BC0FP
SW+5V
SW+5V
D_OUT
XAMUTE
XMMUTE
DATA1
DATA2
XCSDF1
DATA0
XFRST1
LRCK
XFRST0
XCSDF0
SACDSL
DSDCLK DATA0
BCK
DSD-L
DSD-R
BCK
DSD-LS
SACDSL
DATA1
DSD-C
SACDSL
DSDCLK DATA2
BCK
DSD-SW
BCK
DACCLK
DACCLK
DACCLK
MCLK1
MCLK2
MCLK3
LRCK
LRCKOUT1
BCK/DSD-R
DATA0/DSD-L
DSDCLK
DSD-RS
LRCK
LRCKOUT2
DATA1/DSD-LS
BCK/DSD-RS
LRCK
LRCKOUT3
DATA2/DSD-C
BCK/DSD-SW
-28V
DC+3.5V
HEATER
E+5V
STBCTL
STBCTL
E+5V
HEATER
DC+3.5V
-28V
SACDSL
DSDCLK
DSD-C
DSD-SW
DSD-LS
DSD-RS
DSD-L
DSD-R
D_OUT
LT1
XRESET
TXD
S(M-TO-F)
RXD
S(F-TO-M)
DTR
SSCK
CTS
XREADY
VQESCK
VQESSO
XCSPRO2
PD[7]
PD[6]
PD[5]
PD[4]
PD[3]
PD[2]
PD[1]
PD[0]
HSYNC
VSYNC
AV1CLK
SCL0
SDA0
VSEL1
VSEL2
CTS
DTR
RXD
TXD
XREADY
SSCK
S(F-TO-M)
S(M-TO-F)
XRESET
LT1
D_OUT
DSDCLKOUT2
DSDCLKOUT1
DSDCLKOUT3
VSEL2
SQUEEZE
LETTER
VSEL1
SDA0
SCL0
XVQERST
VSYNC
HSYNC
PD[0]
PD[1]
PD[2]
PD[3]
PD[4]
PD[5]
PD[6]
PD[7]
XCSPRO2
VQESSO
VQESCK
XVQERST
SQUEEZE
LETTER
XDFSO
XDFSCK
DACCLK
SACDSL
AV1CLK
FROM PS01
TO PM01 AUDIO
FROM DVDM
TO PM01
MAIN
TO PM01
MAIN
GND
GND
MCLK1
XCSDF0
LRCKOUT1
BCK/DSD-R
DSDCLKOUT1
DATA0/DSD-L
GND
XAMUTE
GND
GND
XFRST0
DATA1/DSD-LS
DSDCLKOUT2
LRCKOUT2
MCLK2
BCK/DSD-RS
XMMUTE
XDFSCK
MCLK3
XDFS0
XCSDF1
DSDCLKOUT3
LRCKOUT3
BCK/DSD-SW
DATA2/DSD-C
XFRST1
GND
GND
+3.3V
+3.3V
+3.3V
+3.3V
+3.3V
+3.3V
+3.3V
+3.3V
+3.3V
+12.2V
+6.1V
+3.3V
+5.0V
+3.3V
+3.3V
+3.3V
+5.0V
+12.2V
+6.1V
+3.3V
+3.4V
+5.3V
-19.0V
-15.4V
-29.0V
FROM MECHA
1
2
3
4
5
6
7
8
9
10
11
12
13
25
14
26
15
27
16
28
17
29
18
30
19
20
21
22
23
24
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
2
5
4
3
254
3
254
3
254
3
3
5
15
14
1
2
4
8
16
6
7
9
10
11
12
13
3
5
15
14
1
2
4
8
16
6
7
9
10
11
12
13
3
5
15
14
1
2
4
8
16
6
7
9
10
11
12
13
8
7
6
5
1
2
3
4
8
2
1
6
3
5
7
4
1
2
4
5
3
1
2
4
5
3
1
2
4
5
3
1
2
3
4
5
6
7
8
9
10
11
12
13
25
14
26
15
27
16
28
17
29
18
30
19
20
21
22
23
24
1
2
3
4
5
6
7
8
9
10
11
12
13
25
14
26
15
27
16
28
17
29
18
30
19
20
21
22
23
24
1
2
3
4
5
6
7
8
9
10
11
12
13
25
14
26
15
27
16
28
17
29
18
30
19
20
21
22
23
24
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
1
2
4
5
3
123
XCSDF0
MCLK1
DSDCLKOUT1
LRCKOUT1
BCK/DSD-R
DATA0/DSD-L
XFRST0
XAMUTE
MCLK2
DSDCLKOUT2
LRCKOUT2
BCK/DSD-RS
DATA1/DSD-LS
XMMUTE
XCSDF1
XDFSO
XFRST1
DATA2/DSD-C
BCK/DSD-SW
LRCKOUT3
DSDCLKOUT3
MCLK3
XDFSCK
-28V
DC+3.5V
HEATER
E+5V
STBCTL
GND
SW+3.3V
SW+3.3V
SW+3.3V
SW+3.3V
GND
GND
GND
MGND
GND
MGND
SW+5V
GMD
SW+5V
GND
GND
SW+12V
GND
SW+12V
GND
GND
M+6V
M+6V
M+6V
MGND
MGND
SW+5V
MGND
GND
M+6V
GND
M+6V
SW+3.3V
12V
SW+3.3V
GND
SW+2.5V
GND
SW+2.5V
GND
GND
GND
DACCLK
NC
GND
NC
XCSAQE
GND
XAQRST
D_OUT
XDFSO
XAMYTE
XDFSCK
XMMUTE
GND
DATA1
BCK
DATA2
GND
XCSDF1
DATA0
XFRST1
LRCK
XFRST0
XCSDF0
1B
2A
XST
4A
SELECT
1A
1Y
GND
VDD
2B
2Y3Y3B
3A
4Y
4B
1B
2A
XST
4A
SELECT
1A
1Y
GND
VDD
2B
2Y3Y3B
3A
4Y
4B
1B
2A
XST
4A
SELECT
1A
1Y
GND
VDD
2B
2Y3Y3B
3A
4Y
4B
VCC
ST
SEL
Y
A
B
Y
GND
CLR
D
CLK
VCC
Q
Q
PR GND
LT1
XRESET
TXD
S(M-TO-F)
RXD
S(F-TO-M)
DTR
SSCK
CTS
XREADY
GND
VQESCK
VQESSO
XCSPRO2
PD[7]
PD[6]
PD[5]
PD[4]
PD[3]
PD[2]
PD[1]
PD[0]
HSYNC
VSYNC
XVQERST
GND
GND
AV1CLK
GND
GND
SCL0
SDA0
GND
VSEL1
LETTER
SQUEEZE
VSEL2
GND
10k
10k
10k
10k
0
0
0
0
0
0
0
0
0
0
0
0
0
0
22
0.1
22
N.C
22
N.C.
0.1
22
22
N.C.
0.1
22
0
N.C.
N.C.
0
0
0
0.1
0
0
0
0.1
0
0
0
0.1
0.1
22
N.C.
0.1
10k
22
0.1
33k
0
0.1
0.1
0.1
22
N.C
0.1
N.C
22
100/6.3V
100/6.3V
0.47
0.47
10k
10k
10k
10k
10k
10k
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
J701
J702
R715
R716
R717
R718
R701
R702
R703
R704
R705
R706
R707
R708
R709
R710
R711
R712
R713
R714
R732
Q708
C709
R734
R733
R737
R736
C710
R735
Q709
R740
R739
C711
R738
Q710
R730
C708
R729
Q707
Q711
Q712
Q713
Q703
R742
R743
R741
C712
R747
R745
R746
C713
R749
R751
R750
C714
Q704
C703
R723
R728
C704
R724
Q705
Q706
Q702
R727
C706
R725
R726
C705
C707
C702
R722
R721
J703
J706
J705
J704
Q701
C701
R719
R720
C717
C715
C716
C718
R744
R748
R752
R753
R755
R754
J710
J709
J708
J707
R756
R757
R759
R758
R762
R763
R761
R760
R771
R769
R766
R768
R767
R765
R764
R770
R777
R772
R774
R776
R775
R773
R778
Q714
R731
PD01-2/2
J711
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
47R785
47R786
47R782
47R787
47R781
47R780
47R783
47R784
47R779
D-GND
SW+3.3V
SW+5V
E+5V
E+5V
C719
0.1
D-GND
SW+3.3V
Q715
TC7SH08FU
2
1
4
5
3
D-GND
R788
N.C.
A1
A2
A3
A4
A5
A6
A7
A8
G1
G2
Y8
Y7
Y6
Y5
Y4
Y3
Y2
Y1
VCCGND
Q716
TC74VHC541
2
3
4
5
6
7
8
9
19
1
11
12
13
14
15
16
17
18
1020
D-GND
D-GND
C720
0.1
SW+3.3V
AV1CLK
PD[7]
PD[6]
PD[5]
PD[4]
PD[3]
PD[2]
PD[1]
PD[0]
TO JH01
(PD02)
+3.3V
Page 10
1413
CS4392
A-GND
A-GND
2SC2873
2SA1312
2SC3324
2SA1312
IMN10
1SS302
2SK170
A-GND
A-GND
2SC4213
A-GNDA-GNDA-GND
-8VDA
A-GNDA-GND
IMN10
2SC2873
2SA1312
1SS302
2SC3324
-8VDA
2SA1312
2SK170
A-GND
A-GND
2SC4213
A-GND
-8VA
+8VA
DAC-GND
2SC3324
-8VDA
2SA1312
-8VAA
2SC4213
2SK170
IMN10
2SC4213
2SK170
A-GND
1SS302
2SC2873
A-GND
2SA1312
2SA1312
A-GND
A-GND
A-GND
A-GND
-8VDA
A-GND
2SC2873
2SC3324
A-GND
2SA1312
+8VAA
A-GND
A-GND
1SS302
IMN10
2SA1312
A-GND
2SC4213
2SC3324
2SC3324
A-GND
A-GND
A-GND
A-GND
2SA1312
2SA1312
1SS302
2SC4213
-8VDA
2SA1312
2SK170
1SS302
2SC2873
A-GND
-8VAA
2SK170
+8VAA
-8VDA
2SC2873
A-GND
IMN10
A-GND
A-GND
IMN10
A-GND
A-GND
2SC4213
2SC4213
A-GND
A-GND
A-GND
+5VDA
-8VDA
+3.3VDD +5VDA
CS4392
CS4392
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
1SS301
2SA1586
MUTE+12V
DTC114EUA
A-GND
A-GND
DTC114EUA
A-GND
MUTE+12V
SW+12V
DAC-GND
+5VDA+3.3VDD
+5VDA
DTC114EUA
A-GND
1SS301
A-GND
2SA1586
DTC114EUA
A-GND
MUTE+12V
A-GND
DTC114EUA
MUTE+12V
1SS301
DTC114EUA
A-GND
A-GND
1SS301
2SA1586
DTC114EUA
2SA1586
A-GND
DTC114EUA
A-GND
A-GND
MUTE+12V
A-GND
DTC114EUA
DTC114EUA
A-GND
DTC114EUA
A-GND
2SA1586
DTC114EUA
1SS301
A-GND
A-GND
2SA1586
MUTE+12V
1SS301
A-GND
A-GND
MUTE+12V
1SS301
2SK389
2SK389
2SK389
2SK389
2SK389
2SK389
2SJ74
2SJ74
2SJ74
2SJ74
2SJ74
2SJ74
EARTHA-GND
DAC-GND
DAC-GND
DAC-GND
DAC-GND
DAC-GND
DAC-GND
A-GNDA-GND
A-GNDA-GND
A-GNDA-GND
A-GNDA-GND
A-GNDA-GND
A-GNDA-GND
A-GNDDAC-GND
+3.3VDD
DAC-GND
-8VA
-8VAA
+8VA
+8VAA
GND
GNDDAC-GND DAC-GND A-GND A-GND A-GND D-GND A-GND
EARTH
DAC-GND
A-GND
A-GND
A-GND
+3.3VDD
BLM11B601S
DSDCLKOUT1
LRCKOUT1
BCK/DSD-R
DATA0/DSD-L
XCSDF0
XDFSO
XDFSCK
MCLK1
XFRST1
MCLK2
XCSDF1
DSDCLKOUT2
LRCKOUT2
BCK/DSD-RS
DATA1/DSD-LS
DATA2/DSD-C
BCK/DSD-SW
LRCKOUT3
DSDCLKOUT3
MCLK3
XFRST0
XMMUTE
XAMUTE
XMMUTE
XAMUTE
XCSDF1
XDFSO
XDFSCK
DSDCLKOUT3
MCLK3
LRCKOUT3
BCK/DSD-SW
DATA2/DSD-C
XCSDF1
XDFSO
XDFSCK
DSDCLKOUT2
MCLK2
LRCKOUT2
BCK/DSD-RS
DATA1/DSD-LS
XCSDF0
XDFSO
XDFSCK
DSDCLKOUT1
MCLK1
LRCKOUT1
BCK/DSD-R
DATA0/DSD-L
XFRST0
XFRST1
XFRST1
FROM
PD01
L
FL
FROM
PS01
R
FR
C
SL
SR
SW
N only
-8VA
+8VA
-8VA
+8VA
GND
GND
+7.5V
+3.3V
-7.4V
-8.9V
+5.0V
+3.3V
+5.0V
+11.5V
+0V
+2.9V
+0V
-7.2V
-8.9V
+3.3V +5.0V
+0V
+2.9V
+0V
-8.9V
-7.2V
+0V
+2.9V
+0V
-7.2V
-8.9V
+3.3V
+5.0V
-8.9V
-7.2V
-7.2V
-8.9V
-8.9V
-7.2V
+0V
+2.9V
+0V
+0V
+2.9V
+0V
+7.5V
-7.4V
-7.4V
-7.4V
+7.5V
-7.4V
-7.4V
-7.4V
+7.5V
-7.4V
-7.4V
+7.5V
-7.4V
-7.4V
+7.5V
+0V
+2.9V
+0V
PM01-1/5
XRESET
VL
SDATA
SCLK
LRCK
MCLK
M3
SCL/CCLK
M1
AD0/XCS
AMUTEC
FILT+
CMOUT
BMUTEC
AOUTB-
AOUTB+
AGND
VA
AOUTA+
AOUTA-
C
B
E
C
B
E
C
B
E
C
B
EG
D
S
C
B
E
C
B
E
C
B
E
C
B
E
C
B
EG
D
S
C
B
E
C
B
E
C
B
E
C
B
E
G
D
S
C
B
E
G
D
S
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
C
B
EG
D
S
C
B
E
G
D
S
C
B
E
C
B
E
C
B
E
XRESET
VL
SDATA
SCLK
LRCK
MCLK
M3
SCL/CCLK
M1
AD0/XCS
AMUTEC
FILT+
CMOUT
BMUTEC
AOUTB-
AOUTB+
AGND
VA
AOUTA+
AOUTA-
XRESET
VL
SDATA
SCLK
LRCK
MCLK
M3
SCL/CCLK
M1
AD0/XCS
AMUTEC
FILT+
CMOUT
BMUTEC
AOUTB-
AOUTB+
AGND
VA
AOUTA+
AOUTA-
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
G
D
S
G
D
S
G
D
S
G
D
S
G
D
S
G
D
S
G
D
S
G
D
S
G
D
S
G
D
S
G
D
S
G
D
S
G
D
S
G
D
S
G
D
S
G
D
S
G
D
S
G
D
S
-8VDA
PMUTE
+5VDA
DAC-GND
DAC-GND
+3.3VDD
1
2
3
4
5
6
7
8
9
102011
12
13
14
15
16
17
18
19
1
2
3
1
2
3
1
2
3
1
2
3
123
456
31
2
1
3
2
1
2
3
123
456
1
2
3
1
2
3
31
2
1
2
3
1
2
3
1
3
2
1
2
3
1
2
3
4
5
6
7
8
9
10
11
12
13
25
14
26
15
27
16
28
17
29
18
30
19
20
21
22
23
24
1
2
3
1
2
3
1
2
3
1
3
2
123
456
1
2
3
1
3
2
31
2
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
31
2
123
456
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
31
2
1
2
3
1
2
3
1
3
2
31
2
1
2
3
1
3
2
1
2
3
123
456
123
456
1
2
3
1
2
3
1
2
3
1
2
3
4
5
6
7
8
9
102011
12
13
14
15
16
17
18
19
1
2
3
4
5
6
7
8
9
102011
12
13
14
15
16
17
18
19
3
12123
1
2
3
1
2
3
1
2
3
3
12123
1
2
3
1
2
3
3
1
2
1
2
3
3
1
2
123
1
2
3
123
1
2
3
1
2
3
1
2
3
1
2
3
123
1
2
3
3
1
2
12331
2
3
1
2
2
1
3
6
7
5
4
6
7
5
4
2
1
3
2
1
3
4
6
7
5
2
1
3
4
6
7
5
2
1
3
6
7
5
4
2
1
3
4
6
7
5
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
6
5
4
3
2
1
4
5
1
2
3
6
1
2
4
5
6
3
1
2
1
2
3
4
+8VA
0.1
220/16V 100/10V
1
0
0
0.1
0.1
1/50V
1/50V
3.3k
2.2k 2.2k
3.3k 2.2k
2.2k
1000p
220P
100
560
150
150
560
100
100
12k
15k
220P
10
10
100
33p
33k
220/16V
220/16V
220
22k
2.2k
220k
270p
100
220k
10
100
220
22k
10
100
270p
150
560
33k
100
33p
220/16V
220P
2.2k
150
560
220/16V
150
220P
220/16V
220k
100/10V
100
100
560
10
100
100
100
270p
220/16v
0
1/50v
220
1/50v
2.2k
220/16V
100
0.1
10
220/16v
220
2.2k
22k
1
220P
100
560
10
220k
33p
220/16V
560
150
33k
0.1
10
33k
100
270p
150
33p
22k
0
560
0.1
150
100
560
220P
0
33k
100
150
150
220k
100
0
220/16V
560
2.2k
22k
270p
100
220
150
560
220/16V
1/50v
22k
100
560
100/10V
220/16V
100
100
2.2k
0.1
10
10
10
220k
220P
1/50v
220/16V
0.1
10
270p
220
1
0.1
33p
220/16V
100
150
33p
33k
0
0
22k22k
270p270p
220
220
2.2k
2.2k
1000p
100p
100k
100k
2.2k
1000p
100p
220P
2.2k
3.3k
2.2k
2.2k3.3k
1000p
15k
12k
15k
3.3k
2.2k
1000p
2.2k
2.2k
1000p
100p
12k
2.2k
3.3k
220P
100k
3.3k
3.3k
1000p
2.2k
12k
15k
1000p
2.2k
100p
2.2k
2.2k
220P
100k
2.2k
12k
3.3k
2.2k
1000p
3.3k
2.2k
2.2k
100p
1000p
15k
220P
100k
2.2k
220P
2.2k
2.2k
15k
3.3k
1000p
100p
3.3k
12k
2.2k
1000p
100k
3.3k
1k
1k
100/16v
1k
1k
3.3k
1k
3.3k
1k
1k
3.3k
1k
1k
1k
3.3k
1k
1k
3.3k
10k10k 10k
10k
10k
10k
N.C.N.C.N.C.
0
0
0
15K
12K
15K
12K
15K
12K
15K
12K
12K
15K15K
12K
0
0
0
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
0
0
QD01
CD02
CD01 CD07
CD08
RD01
RD11
CD06
CD04
CD05
CD03
R201
R203 R205
R202 R204
R206
C204
C206
Q303
Q304
Q306
Q305
D301
D302
R303
R307
R301
R302
R308
R304
R305
R207
R208
C208
Q201
R211
R212
R309
C301
R306
C210
C211
R215
R216
R219
R217
C212
Q204
R314
R247
R241
D311
R319
R245
Q313
R246
R242
R313
C242
R312
Q315
R317
D312
R316
Q316
R315
C311
C241
C238
R249
Q314
Q231
Q234
R311
R318
C240
J201
R332
C438
Q336
CD21
Q334
R447
CD27
R334
Q404
R324
Q401
R327
R442
R325
R339
R335
D331
Q434
C442
C440
Q431
RD31
D332
CD23
R445
CD25
R419
Q333
C410
R323
CD26
R411
C441
Q324
R415
R449
Q335
R446
CD28
C408
R329
R328
R412
R417
C321
C411
R337
R321
Q323
R326
Q326
CD22
R441
R336
R333
C412
Q325
R331
C331
R416
RD21
R338
D322
CD24
R322
D321
Q355
R355
R348
C538
RD51
R346
R359
Q504
R351
R342
R517
Q346
Q356
R344
RD41
C541
R357
R519
R516
C512
R343
R545
Q354
R341
R347
C510
CD43
Q345
R546
D342
Q534
R354
Q344
Q501
D352
R358
CD47
Q353
CD41
R345
R349
Q531
R549
CD44
R512
R511
R541
R547
C508
CD45
C540
CD46
R542
C542
Q343
R515
CD48
CD42
C351
C511
R353
D351 D341
R352
C341
R356
F221
F251
R222R252
C221C251
Q206
Q236
R221
R251
R254
R224
J204
QD21
QD41
C205
C203
R213
R243
R235
C234
C233
C236
R233
R231
R236
R234R232
C235
R238
R237
R408
R402
R405
C405
R406
R403
C404
C403
R407
R404
R401
C406
R413
R432
R431
C435
R433
R437
R438
C434
R436
C433
R434
R435
C436
R443
R505
R507
R502
R503
C505
R501
R504
R506
C503
C504
R508
C506
R513
R533
C536
R536
R534
R538
R531
C534
C533
R532
R537
R535
C535
R543
D221
Q209
R227
Q208
Q207
R225
R226
C200
Q237
D251
R256
R255
Q239
Q238
R257
R426
Q437
R457
D451
Q408
R425
D421
Q439
Q407
Q409
R456
R427
R455
Q438
Q537
R526
Q538
Q507
R555
Q539
R527
Q508
R556
D551
Q509
D521
R525
R557
D200
Q301
Q311
Q321
Q331
Q341
Q351
R528R558 R428R458
R228R258
Q202
Q532
Q502
Q232
Q402
Q432
J206
CD09CD29CD49
RD02
RD22
RD42
J202
R210
R209
R240
R239
R410
R409
R440
R439
R509
R510R540
R539
RD43
RD23
RD03
J205
J203
J208
J207
RD44
RD45
RD46
RD04
RD24
R262
R562
R461
R462
R561
R261
R563
R463
R264
R263
R265
J209
LD01
R250
R220
Page 11
15 16
D-GND
-28V
DC+3.5V
HEATER
E+5V
D-GND
/TEST
LT1
XRESET
S(MtoF)
S(FtoM)
SSCK
XREADY
P_TRG
D-GND
V-MUTE
IR_SW
D-GND
D-BUS
STB_CTL
D-GND
-28V
DC+3.5V
HEATER
E+5V
STB_CTL
D-GND
D-GND
SW+3.3V
V-GND
V-GND
E+6V
V-GND
V-GND
SW+12V
SW+3.3V
E+6V
SW+12V
D-GND
XRESET
XREADY
LT1
SSCK
S(FtoM)
S(MtoF)
D-GND
CTS
DTR
RXD
TXD
D-GND
D-GND
D-GND
D-GND
D-GND
SW+5V
D-GND
D-GND
D_OUT
VSEL2
SQUEEZE
LETTER
VSEL1
SDA0
SCL0
AV1CLK
XVQERST
VSYNC
PD0
HSYNC
PD2
PD1
VQESSO
PD7
XCSPRO2
PD5
PD3
PD6
PD4
VQESCK
+0.3V
+0.3V
+0.3V
EXCEPT N
N
RA44 RA45 RA46 RA47 RA48 RA49
000
000
NC NC NC
NC NC NC
***
***
+5.0V
+12.2V
+6.1V
+3.3V
-29.0V
-15.4V
-19.0V
+5.3V
+3.4V
+2.5V
+3.3V
+2.5V
+2.5V
+2.5V
+3.3V
+3.3V +2.5V
+3.3V
Prog: +3.2V
Int: +0V
Int: +0V
Prog: +5.0V
+0.9V
+5.0V
+1.0V
+5.0V
+5.0V
+0.9VExcept N:1.2k
Except N:4.7k
ADV7300
K4S643232E-TC60
V-GND
D-GND
D-GND
D-GND
D-GND
D-GND
D-GND
+3VD
D-GND
D-GNDD-GNDD-GND
D-GNDD-GND
D-GND
D-GND
+2.5VD
+2.5VD
D-GND
+2.5VD
+2.5VD
AD_V
AD_Y
AD_C
AD_Y2
AD_Cb
AD_Cr
PR2_Cr
PR2_Cb
PR2_Y
D_OUT
VSEL2
SQUEEZE
LETTER
VSEL1
+3VD
+3VD
SPR4
D-GND
D-GND
SW+12V
V-GND
V-GND
E+6V
+3VD
CTS
TXD
DTR
RXD
V-MUTE
IR_SW
D-BUS
D-GND
D-GNDD-GND
+5VV +5VV
P/XI
SPR4
+2.5VD
+3VD
D-GND D-GNDD-GND
EARTHD-GND
P_TRG
D-GND
V-GND
2SA1586
V-GND
V-GND
V-GND
V-GND
V-GND
V-GND
V-GND
V-GNDV-GND
2SA1586
+5VV
2SA1586
V-GND
+5VV
+5VV
V-GND
AD_G
AD_B
AD_R
AD_Y/G
AD_Cb/B
AD_Cr/R
AD_Cr/R
AD_Cb/B
AD_Y/G
SW+5V
CKE
CKE
D-GND V-GND
10
10
V-GND
PM0033A
12345678910111213141516171819202122232425262728293031323334353637383940
414243444546474849505152535455565758596061626364656667686970717273747576777879
80
81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
1
VDD_IO
48
XS_BLANK
49
XS_VSYNC
32
CLKIN_A31RTC_SCR_TR30C929C828C727C626C525P_BLANK24XP_VSYNC23XP_HSYNC22SCLK_SI21SDA_CLKSP20ALSB_SO19XSPI/I2C18C417C3
50
XS_HSYNC
51S052S153S254S355S456
VDD
57
DGND
58S559S660S761S862S963
CLKIN_B
64
GND_IO
2
Y0
3
Y1
4
Y2
5
Y3
6
Y4
7
Y5
8
Y6
9
Y7
10
VDD
11
DGND
12
Y8
13
Y9
14
C0
15
C1
16
C2
47
RSET1
46
VREF
45
COMP1
44
DAC_A
43
DAC_B
42
DAC_C
41
VAA
40
AGND
39
DAC_D
38
DAC_E
37
DAC_F
36
COMP2
35
RSET2
34
EXT_LF
33
XRESET
1
VDD2DQ0
3
VDDQ
4
DQ15DQ2
6
VSSQ
7
DQ38DQ4
9
VDDQ
10
DQ511DQ6
12
VSSQ
13
DQ7
14NC15
VDD16DM017/WE
18
/CAS19/RAS
20
/CS
21NC22
BS023BS1
24
A10/AP
25A026A127A228
DQM2
29
VDD
30NC31
DQ1632VSSQ
86
VSS85DQ1584VSSQ83DQ1482DQ1381VDDQ80DQ1279DQ1178VSSQ77DQ1076DQ975VDDQ74DQ873NC72VSS71DQM170VREF69NC68CLK67CKE66A965A864A763A662A561A460A359DQM358VSS57NC56DQ3155VDDQ
33
DQ1734DQ1835VDDQ36DQ1937DQ2038VSSQ39DQ2140DQ2241VDDQ42DQ23
54
DQ3053DQ2952VSSQ51DQ2850DQ2749VDDQ48DQ2647DQ2546VSSQ45DQ2444VSS
43
VDD
1357
2468
1357
2468
7531
8642
8642
7531
8642
7531
1
2
3
4
5
6
7
8
9
10
11
12
13
25
14
26
15
27
16
28
17
29
18
30
19
20
21
22
23
24
1
2
3
4
5
6
7
8
9
10
11
12
13
25
14
26
15
27
16
28
17
29
18
30
19
20
21
22
23
24
1
2
3
1
2
3
1357
2468
7531
8642
7531
8642
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
123
XCSPRO2
VQESSO
VQESCK
MA3
MA4
MA5
MA6
MA7
MA8
MA9
MCLK
MD8
MD9
MD10
MD11
MD12
MD13
MD14
MD15
MD19
MD18
MD17
MD16
MA2
MA1
MA0
MA10
MA11
RAS
CAS
WE
MD7
MD6
MD5
MD4
MD3
MD2
MD1
MD0
MA4
MA3
MA5
MA2
MA6
MA1
MA7
MA0
MA8
MA10
MA9
MA11
PB9
PB8
PB7
PB6
PB5
PB4
PB3
PC0
PC1
PC2
PC3
PC4
PC5
PC6
PC7
PC8
PC9
PB0
PB1
PB2
PPD0
PPD1
VSYNC
HSYNC
PPD2
PPD3
PPD4
PPD5
PPD6
PPD7
PB0
PB1
PB2
PB3
PB4
PB6
PB7
PB8
PB9
PC0
PC1
PC2
PC5
PC7
PC8
PC9
XVQERST
PR2CLK
PPD0
PPD1
PPD2
PPD3
PPD4
PPD5
PPD6
PPD7
HSYNC
VSYNC
PD0
PD1
PD2
PD3
PD4
PD5
PD6
PD7
XVQERST
SDA0
SCL0
AV1CLK
XVQERST
VSYNC
HSYNC
PD0
PD1
PD2
PD3
PD4
PD5
PD6
PD7
XCSPRO2
VQESSO
VQESCK
AV1CLK
PB5
XREADY
SSCK
S(FtoM)
S(MtoF)
XRESET
LT1
E+5V
HEATER
DC+3.5V
-28V
-28V
DC+3.5V
HEATER
E+5V
STB_CTL
XREADY
SSCK
S(FtoM)
S(MtoF)
XRESET
LT1
STB_CTL
SDA0
SCL0
MCLK
PC4
PC6
PC3
PR2CLK
RAS
CAS
WE
MD0
MD1
MD2
MD3
MD4
MD5
MD6
MD7
MD8
MD9
MD10
MD11
MD12
MD13
MD14
MD15
MD16
MD17
MD18
MD19
VDD3
CLKI
PLL_TEST
PLL_EN
VDD2
CLKO
PD0
PD1
PD2
PD3
PD4
GND
VDD3
PD5
PD6
PD7
PD8
PD9
GND
GND
GND
VDD3
NHS
NVS
PA0
PA1
PA2
PA3
PA4
PA5
PA6
PA7
PA8
PA9
MA4
MA3
MA5
MA2
GND
VDD3
VDD2
MA6
MA1
MA7
MA0
MA8
MA10
VDD3
MA9
MA11
GND
RAS
MCLK
CAS
WE
VDD3
MD8
MD7
MD9
PDOEN
GND
GND
MD6
MD10
VDD3
MD5
MD11
MD4
MD12
MD3
MD13
GND
VDD3
MD2
MD14
MD1
MD15
MD0
VDD2
VDD3
VDD3
GND
MD16
MD17
MD18
MD19
GND
AGND
DAO_Y
AVDD2
DAO_Cb
AGND
DAO_Cr
AVDD2
VREF
AVDD2
VG
AGND
GND
GND
GND
GND
CLMP
TEST0
TEST1
TEST2
TEST3
TEST4
SPR0
SPR1
VDD3
SPR2
SPR3
SPR4
SPR5
GND
SPR6
SPR7
VDD3
VDD2
GND
PB0
PB1
PB2
PB3
VDD3
PB4
PB5
GND
PB6
PB7
PB8
PB9
PBOEN
VDD3
PC0
PC1
PC2
PC3
GND
GND
PC4
PC5
VDD3
PC6
PC7
PC8
PC9
GND
CSB
SDA
SCL
SRN
CKIPOL
PLL_VDD
CPOUT
VCOIN
PLL_GND
VDD3
0
0
0
0
0.1
0.1
0
0.1
0
0
0RX4
0RX4
0.1
0
0.1
0
0.1
000
0
0
0
0.1
0
N.C.
0
22k
0.1
8.2k
0.1
0.1
0.1
330
N:2.2k
0
0.1
100/10V
N:10k
0.1
0.1
0
0.1
100/10v
100/10v
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0
750.01
0
N.C.
100/10v
0.1
BLM11B601S
10Kx4
0.1
0.1
0.1
0.1
0.1
0.1
0.1
BLM11B601S
10Kx4
0.1
10Kx4
0.1
0.1
0.1
0.1
100/10v
BLM11B601S0.1
10k
0.1
0.1
0
N.C.
0.1
0.1
0
0
0
2.2k
2.2k
10k
0.1
0.1
0.1
0.1
0.1
470/10V
N.C
100p
0
100
N.C.
10k 10k
10k
0.1
100/10v
0.1
BLM11B601S
0
6.8k
6.8k
N.C.11.5k
47
N.C.
820p
3900p 680
N.C.
47 1.5k
0
0
0
0
0
0
0
0
22
22
22
22
22
22
22
22
0
0
0
0
0
0
0
BLM11B601S
0.1
0
0
0
0
0
0
0
DTC114EUA
DTC114EUA
10K
10K
N.C.
N.C
0.1
100/10v
0.1
100/10v
0
0.1
0RX4
0.1
0RX4
0RX4
N.C.
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
BA25BC0FP
0.01
1.8k
680680
1.8k
100
100
560
100
680
0.01
560
0.01
560
1.8k
0
NC
NC
0
0
0
0
NC
100/10v
NC
RE30
QE01
QA01
QE02
RE32
RE33
RE34
CE03
CE04
RE38
CE05
RE43
RE44
RE59
RE56
CE30
RE57
CE31
RE58
CE32
RE60
RE61
RE62
RE65
RE66
RE64
CE33
RE70
RE72
RE73
RE75
CE18
RE50
CE17
CE20
CE19
RE52
RE49
RE53
CE21
CE56
RE51
CE25
CE24
RE54
CE29
CE27
CE28
CE12
CE13
CE16
CE06
CE07
CE11
CE10
CE09
CE08
CE37
CE02
CE35
RE74
RE76CE36
RE71
CE34
CE14
CE15
RE46
RE78
CE46
CE45
CE44
CE43
CE42
CE41
CE40
RE55
RE80
CE47
RE79
CE48
CE49
CE50
CE51
CE38
RE77CE39
RE81
JE01
JE02
CA22
CA06
RA04
CA08
CA23
CA05
RA05
RA06
RA07
RA08
RA09
RA10
CA14
CA15
CA16
CA17
CA21
CA20
CA09
CA10
RA12
RA13
CA07
RA30 RA29
RA31
CA02
CA01
CA04
RA03
RA28
RA23
RA25
RA24
CA18
RA26
RA27
CA19
CA11
CA12 RA14
CA13
RA16 RA15
RE01
RE02
RE03
RE04
RE05
RE22
RE21
RE20
RE19
RE18
RE17
RE16
RE15
RE14
RE13
RE12
RE11
RE10
RE09
RE08
RE07
RE06
RE31
RA01
CE26
RE25
RE24
RE26
RE23
RE27
RE29
RE28
QE04
QE05
RE82
RE83
CE01
RA02
CE53
CE52
CE55
CE54
RE45
CA03
RE63
CE23
RE35
RE39
JE07
JE06
JE03
RE36
RG01
RG02
RG03
RG05
RG04
RG06
RG08
RG09
RG07
RG11
RG12
RG10
RG14
RG13
RG16
RG19
RG15
RG18
RG17
RG22
RG21
RG20
RG23
QE03
CA26
RA43
QA03
RA36RA40
RA35
RA42
RA34
RA41
RA38
QA02
RA32
CA25
RA33
QA04
CA24
RA37
RA39
RA49
RA48
RA47
RA46
RA44
RA45
RE84
RE85
CA27
JE05
JE04
RA50
RA51
RA52
RA53
LA01
LE01
CE22
CA28
RE86
PM01-2/5
FROM
PD01
FROM
PD01
FROM
PD01
Page 12
1817
V-GND
V-GND
V-GND
V-GND
V-GNDV-GNDV-GND
V-GND
+12VV
SQUEEZE
LETTER
2SA1162
V-GND
V-GND V-GND
BLM11B601S
V-GND
V-GND
V-GND
V-GND
V-GND
V-GND EARTH
V-GND
V-GND
V-GND
V-GND
V-GND
SCT_R/C
SCT_B
SCT_G
SCT_V/Y
SCT_V
+12VV
V-GND
V-GNDV-GNDV-GND
V-GND
+5VV
V-GND
2SA1586
V-GNDV-GND
V-GND
2SA1586
+5VV
V-GNDV-GNDV-GND
V-GND
+5VV
V-GND
2SA1586
V-GNDV-GND
V-GND
2SA1586
+5VV
V-GNDV-GNDV-GND
V-GND
+5VV
V-GND
2SA1586
V-GNDV-GND
V-GND
2SA1586
+5VV
2SA1586
+5VV
+5VV
V-GND
2SA1586
V-GND
V-GND
V-GND
V-GND
V-GND
V-GND
V-GND
V-GND
+5VV
V-GND
V-GND
V-GND
V-GND
V-GND
V-GND
V-GND
V-GNDV-GND
2SA1586
V-GND
V-GND
V-GND V-GND
V-GND
+5VV
SCT_G
V-GND
V-GND
+5VV
SCT_B
V-GND
SCT_V/Y
V-GND
+5VV
V-GND
+5VV
SCT_R/C
V-GND
V-GND
V-GND
+12VV
V-GND
+5VV
+12VV
V-GND
V-GND
V-GND V-GND
+5VV
V-GNDV-GND
SCT_V
+5VV
SQUEEZE
VSEL1
V-GNDV-GND
V-GNDV-GND
V-GNDV-GND
AD_Y
AD_V
AD_C
AD_R
AD_B
AD_G
SQUEEZE
LETTER
VSEL1
LETTER
VSEL1
SQUEEZE
E+6V
SW+12V
V-GNDV-GND
V-GND V-GND
+12VV
+5VV
V-GND
V-GND
VSEL2 VSEL2
VSEL2
V-MUTE
V-GND V-GNDV-GND
V-GNDV-GND
2SA1797
V-GND
V-GND
V-GND
V-GND
V-GND
V-GND
E+6V
V-GND
V-GND
V-GND
V-GND
CVBS
S1/S2
V
B
R/C
V-GND
V/Y
V-GND
F-SW
RGB SW
+12VV
V-GND
V-GND
G
+5.0V
+5.0V
+5.0V
N only
***
***
N ONLY
EXCEPT N
RV05 RV06 RV12 RV13 RV19 RV20 RV28 RV29
680
470 470 470 470 470 470 0 NC
NC
0680 680560 560
560
+12.2V
+8.4V
+11.4V
+12.1V
+5.0V
+5.0V
+5.0V
+12.2V
+5.0V
+5.0V+12.2V
+12.2V
16:9:+6.0V
4:3:+12.1V
16:9:+5.5V
4:3:+11.5V
4:3:+0V
16:9:+3.1V
16:9:+0V
4:3:+12.1V
CVBS/S:+0V
RGB:+3.2V
RGB:+0V
CVBS/S:+5.0V
CVBS/S:+0V
RGB:+5.0V
+5.0V
+5.0V
+5.0V
+1.6V
+0.9V
+5.0V
+0.9V
+1.6V
+5.0V
+1.6V
+0.9V
+5.0V
+5.0V
+5.0V
+0.7V
+4.9V
+0V
+5.0V+6.1V
+12.2V
+12.2V
+11.5V
+0.4V
+1.1V
+1.7V
+0.5V
+1.2V
+1.8V
***
1
MUTE
2
TYPE_SEL
3
V,Cb_IN
4
SQUEEZE
5
LETTER
6
C,Cr_IN
7
GND
8
REG_OUT
9
VCC
10
Y_IN
11
AMP_SEL
12
DAC_DCOUT
24
GND
23
V_OUT
22
YCMIX
21
Cb_OUT
20
VCC
19
C_OUT
18
GND
17
Cr_OUT
16
C_DCOUT
15
Y_OUT2
14
GND
13
Y_OUT1
1
2
3
5
241
3
6
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
6
5
4
12345
1
2
3
1
2
3
1
2
3
4
12
11
10
9
8
7
6
5
4
3
2
1
01ZA8.2
31
2
01ZA8.2
31
2
15
47 15
47
470/16V
LA7138M
0.1
0.1
100/16V
100/16V
0.1
0.1
0
0
47P
47P
0
0
N.C.N.C.
1000/6.3V
1000/6.3V
1000/6.3V
027
N.C
33
N.C
27 0
33
0.1
10K
0.1
0.1
3.9K1.2K
0.1
0.01
100
33pNC10p
10
22k
NC
680
47p
4.7
0.01
2.2k
1.8k
0.01
100
33pNC10p
10
22k
NC
680
47p
4.7
0.01
2.2k
1.8k
0.01
100
33pNC10p
10
22k
NC
680
47p
4.7
0.01
2.2k
1.8k
3p 5p
56p
0.01
22k
0.01
56p
22k
15
12
27p
2.2k
27p
3p
470
5p
470
56p
68p
0.01
22k
12470
15
68p
27p
68p
12
2.2k
3p
15
2.2k
5p
MM1509XN
0
N.C. N.C.
0
N.C
0
10/50V
10/50V
10/50V
0.01
MM1509XN
0.01
10/50V
MM1506XN
MM1508XN
0.01
10/50V
0.01
10/50V
10/50V
0.1
10/50V
000
2SA1586
1.5k
220
2SC4116
DTC114EUA
4.7k
1k
22k
220
4.7K
0.1
1.5k
56k
220
1.5k
0.1
DTC114EUA
56k
NC
NC
NC
470/16V
0.1
0.1
470/10V
0.1
100/10V
L88MS05T
0.1
470/10V
6.8
470/16V
0.1
10k3.3k
3.3k
DTC114EUA
3.3k
1/50V
0
NC
0
0
NCNC
N.C.
2SC4116
10k
10k
1.2k
1.2k
1.2k
NC
NC
NC
0.1
RV36
RV33 RV34
RV35
CV52
QV11
CV51
CV36
CV39
CV35
CV40
CV33
QV10
RV31
RV30
RV29 RV28
CV38
CV37
LV08
LV09
LV10
CV47CV48
CV43
CV44
CV46
LV12RV40
CV49
RV37
CV50
RV38
JV02
JV07
LV11
RV39
CV45
RV32
CV42
CV41
RV27RV26
C889
CV16
RV07
CV13
CV14
CV11
LV03
RV10
CV12
RV09
QV04
CV15
LV02
CV10
RV11
RV08
QV05
CV24
RV14
CV21
CV22
CV19
LV05
RV17
CV20
RV16
QV06
CV23
LV04
CV18
RV18
RV15
QV07
CV31
RV21
CV28
CV29
CV26
LV07
RV24
CV27
RV23
QV08
CV30
LV06
CV25
RV25
RV22
QV09
Q855
C872 C874
Q858
C856
C876
R865
C867
C866
R874
L854
L851
C852
R857
C871
C863
R873
C865
R855
C875
C864
C857
R856
L853R864
L856
C854
C862
C873
L855
R866
C853
L852
R875
Q852
C855
Q853
R876
R877 R868
R867
R859
R858
CV34
CV32
C859
C860
Q856
C869
C868
Q859
Q860
C879
C877
C883
C882
C881
C878
C880
R878
R879
R880
Q863
R891
R884
Q865
Q862
R888
R882
R881
R886
R887
C888
R892
R889
R885
R890
C886
Q864
R883
C885
C884
Q861
RV06
RV05RV12
RV13RV20
RV19
CV06
CV07
CV02
CV01
C887
CV17
QV01
CV05
CV04
LV01
CV08
CV09
QV02
RV01RV02
RV03
QV03
RV04
CV03
RV41
RV42
RV43
RV45
RV44RV46
C890
QV12
RV47
RV48
JV01
RV50
RV51
RV52
R893
R894
R895
J851
DV02
DV01
CV53
PM01-3/5
Page 13
19 20
V-GND
V-GND
V-GND
V-GND
V-GND
V-GNDV-GNDV-GND
V-GND
+12VV
SQUEEZE
LETTER
2SA1162
V-GND
V-GND V-GND
BLM11B601S
P/XI
V-GND
V-GNDV-GNDV-GND
V-GNDV-GNDV-GND
V-GNDV-GND
+5VV
V-GND
V-GND
PR2_Cb
PR2_Cr
V-GND
PR2_Y
P/XI
SQUEEZE
V-GND
V-GND
V-GND
V-GND
2SA1586
+5VV
LETTER
V-GND
V-GND
2SA1586
+5VV
V-GND
V-GND
V-GND
V-GNDV-GND
V-GNDV-GND
V-GNDV-GND
LETTER
P/XI
SQUEEZE
2SA1586
V-GND
V-GND
+5VV
V-GND
V-GND
+5VV
V-GND
V-GND
2SA1586
V-GNDV-GND
V-GND
2SA1586
V-GND
V-GND
V-GND
2SA1586
V-GNDV-GND
+5VV
+5VV
V-GND V-GND
+12VV
V-GND
+5VV
AD_Cr
AD_Cb
AD_Y
AD_Cr
AD_Cb
AD_Y2
AD_Cr
AD_Cb
AD_Y
V-GND V-GND V-GND
Cr
Y
Cb
For F,S,C,L,A
+0.4V
+0.5V
+0.5V
Y
Y_GND
Cb
Cb_GND
Cr
Cr_GND
N.C.
LINE
I/P
N.C.
ASPECT
SWGND
N.C.
SW
D1/D2
Except F,S,C,L,A
ONLY OEM
+12VV
V-GND
Cb
Cr
Y
V-GND
V-GND
V-GND
N ONLY EXCEPT N
SQUEEZE:+3.1V
SQUEEZE:+0V
Prog:+5.0V Int:+0V
LETTER:+3.1V
LETTER:+0V
+5.0V
+5.0V
+12.2V
+11.4V
+8.4V
Prog:+5.0V
Int:+0V
+5.0V
+5.0V
+5.0V
+5.0V
+1.2V+1.2V
+5.0V
+1.0V
+5.0V
+1.2V
+1.8V
+1.3V
+2.0V
+1.3V
+2.0V
***
RC08
5.6k5.6k
RB08
3.3k
***
0EXCEPT N 0
RC09
N
RB09
N.C.N.C.
3.3k
5
3
2
4
1
1
MUTE
2
TYPE
3
A_IN
4
SQUEEZE
5
LETTER
6
B_IN
7
GND
8
REG
9
VCC1
10
C_IN
11
AMP_SEL
12
DCOUT
24
GND
23
A_OUT2
22
YCMIX
21
A_OUT1
20
VCC2
19
B_OUT2
18
GND
17
B_OUT2
16
C_DCOUT
15
C_OUT2
14
GND
13
C_OUT1
1
2
3
1
2
3
4
5
6
7
8
9
10
11
12
13
14
8
7
6
5
4
3
2
1
NC
31
2NC
31
2NC
31
2
27
27
33 27
33
33
470/16V
LA7138M
0.1
0.1
100/16V
100/16V
0.1
0
0
0
N.C.
47P
47P
0
0
0
N.C.
N.C.
N.C.
1000/6.3V
470/6.3V
470/6.3V
0
27
27
470/6.3V 0
470/6.3V
0
33
33
33
1000/6.3V 27
N.C.
N.C.
N.C.
10K
10K
0.1
0.1
0
3p
100
4.7
10p
22k
0.01
100/10V
33p
390
0.01
1.8k
5.6
22p
7p
2.2k
10/50V
10/50V
10/50V
3.9K 1.2K
68
N.C.
68
N.C.N.C.
68
22k
3p 7p
1.8k
22p
2.2k
33p
4.7
0.01
5.6
10p
100
390
0.01
2.2k
4.7
10p
390
33p
100
0.01
22k
3p
0.01
7p
5.6
1.8k
22p
NC
NC
NC
0
0
0
000
JY01
RB11
RC11
RY17 RY18
RB10
RC10
CY17
QY04
CY16
CY11
CY14
CY10
CY15
QY03
RY16
RY15
RY14 RY13
CY12
CY13
LY03
JY02
LY04
LB03
LC03
CY19
CB10
CC10
CY18
CB09
CC09
LC04
RC13
RB13
CB11 LB04
CC11
LY05
RB12
RY21
RC12
CY20
RY22
CY21
CC12
CB12
RY20
RY19
CY22
CY23
RY10
CY03
RY03
LY01
CY02
RY06
CY07
CY08
CY04
RY05
CY01
RY04
LY02
QY01
CY06
CY05
RY07
QY02
CB08
CY09
CC08
RY12 RY11
RY08
RB08
RC08
RY09 RB09 RC09
RB01
RB02
RC01
RC02RY02
RY01
RB06
QB01
CB03 CB05
RB04
CB06
RB07
CB04
LB01
QB02
CB07
LB02
CB02
RB03
RB05
CB01
QC02
RC07
LC01
CC02
RC05
CC04
RC03
CC01
RC06
CC03
QC01
CC07
CC05
LC02
RC04
CC06
JY03
RC24
RB24
RY24
RC23
RB23
RY23
RC25RB25RY25
DY01DB01DC01
PM01-4/5
Page 14
2221
GND
VCC
INPUT
D-GND
D-GND
N.C.
D-GND
D-GND
D-GND
D-GND
D-GND
D-GND
D-GND
D-GND
N.C.
+5VD
D-GND
D-GND
+5VD
D-GND
+5VD
D-GND
D-GND
RXD
TXD
DTR
CTS
BLM11B601S
D-GND
D_OUT
IR_SW
D-BUS
SW+5V
+5VD
2SC4116
D-GND
+5VD +5VD
D-GND D-GND
+5VD
D-GND
D-GNDD-GND
D-GND
P_TRG
+5VD
D-GND
D-GND
C
B
E
DIGITAL
OUT
GP1F32T
OPT
OUT
+5.0V
+5.0V
+5VD
RXD
TXD
CTS
N.C.
D-GND
DTR
D-GND
D-GND
XLR
OEM only
+5VD
REMOTE_IN
P_TRG
D-GND
D-GND
OEM ONLY
+5.0V
+5.0V
+5.0V
+5.0V
+5.0V
INT/EXT
SW
REMOTE
CONTROL
321
1
3
2
6
43
2
1
1234567
141312111098
321
1
2
4
5
3
7
6
5
4
3
2
1
2
1
3
14
7
1
2
3
1
2
3
4
5
6
7
8
N.C.
N.C.
220
N.C.
22
N.C.
N.C.
47/16V
N.C.
220p
1
N.C.
0.01
N.C.
0
BLM11B601S
100/10V
0.01
0
10K
0
0
10K
0.1
10K
0
10K
N.C.
N.C.
0
2.2k
1.8k3.9k
220
68
0.1
1/50V
N.C.
N.C.
0
100k
N.C.
N.C.
0
0
N.C.
JI04
CI17
JI03
RI15
RI14
RI13
LI02
RI21
RI11
CI18
CI20
CI16
CI12
CI13
RI12
CI10
QI01
CI15
SI01
RI10
LI01
CI11
CI21
JI01
LI34
RI34
LI31
LI32
RI32
CI31
JI05
LI35
RI33
LI33
RI31
QI02 QI03
RI02
RI03
RI04
RI05RI06
RI07
RI08
CI02
CI05
CI04
LI03
RI16
RI09
CI03
CI01
RI17
RI35
RI22
JI06
PM01-5/5
Page 15
23 24
FROM
PM01
TO JI51
(PD02)
123456789101112131415161718192021222324
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
3
12
123456789101112131415161718192021222324252627282930313233343536373839404142434445
1
3
2
8765
1234
JF01
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
121
2
31
2
1
2
3
4
5
6
54
123
G10
G9G8G7G6G5G4G3
G2
P18
P17
P16
P15
P14
P9
P8
G6
G10
G9G8G7G5G3G4G1
G2
G11
G1
P7
P6
P5
P4
P17
P16
P14
P15
P12
P10
P13
P11
P8P6P4P9P7P2P3P5P1
G11
P18
P1
P3
P2
P10
P11
P13
P12
XCS
XSCL
XIRQ
XDIN
XDO
XDIN
XSCL
XIRQ
XCS
XDO
4.7K 4.7K 4.7K
0.1
100
22K
10K
2.2K
10K
4.7K
N.C.
N.C.
N.C.
100
100
100p
100p
100p
100p
100p
100p
100p
100p
100p
100p
100p
4.7K
47k
82K
22
0.047
22
22
22
22
22
22
4.7K
82K
82K
82K
82K
100
0.1
100/16V
100
10k
100p
100p
10k
100p
100p
100p
100p
100p
N.C.47K
0.047
47k
10/16v
0.047
0.047
0.047
N.C.
STAND
BY
FL_OFF
1k
1k
0.1
100
100
ILM_LED
270
0
NC
NC
10K
4.7K
0
N.C.
22
22
22
100p
N.C.
100p
100p
100p
47/16V
0.01
N.C.
N.C.
22
22
22
22
22
100p
100p
100p
100p
100p
47k
4.7K
QF01
RF40 RF41 RF42
XF01
CF17
RF38
QF07
RF28
QF06
RF32
RF31
RF30
QF02
RF09
CF09
CF10
RF29
SF06
SF01
SF04 SF05
SF03SF02
RF37
RF36
CF22
CF29
CF32
CF27
CF26
CF24
CF23
CF31
CF25
CF30
CF28
VF01
RF08
RF21
RF45
RF06
CF19
RF04
RF05
RF03
RF01
RF07
RF02
RF39
RF44
RF43
RF47
RF46
RF34
CF12
CF13
RF33
ZF01
RF22
CF04
CF06
RF23
CF07
CF05
CF03
CF20
CF21
RF24RF25
RF13
RF18 RF17
RF16
RF14
RF15
LF03
CF08
RF35
QF05
CF11
CF01
CF18
CF33
LF01
CF02
DF02
DF03
RF19
RF20
QF08
CF16
RF26
RF27
SF07
DF04
RF48
RF49
RF51
RF50
RF10
RF52
JF03
JF02
DF01
RF53
RF54
RF55
RF56
RF57
CF34
CF35
CF36
CF38
CF37
CF40
CF39
CF42
CF41
JF04
RF61
RF62
RF63
RF64
RF65
CF55
CF52
CF53
CF54
CF51
QF04
RF11
RF66
TMP87PM74F
GND GND
+5V
GND
+5V +5V +5V
Heater
CSTS8.0MHZ(MG)
GND
+5V
GND
GND
DC+3.5V
2SA1586
2SC4116
2SA1586
GND GND
GNDGND
-27V
GND
GND
GND
GND
+5V
GND
DC+3.5V
-27V
Heater
-27V
+5V
GND
GND
GND
GND
GND
+5V
GNDGND
+5V
GNDGNDGND
GND
+5V
GNDGND
+5V
GND
+5V +5V
BLM11B601S
GND
DTA114EU
+5V
GND
GND
GND
BLM11B601S
GND
GND
GND
AT24C04
GND
+5V
GND
GND
GND
GND
+5V
GNDGND
1SS301
GND
GND GND GND GND
GNDGND GNDGND
GND
GNDGNDGND GNDGND
BD4742G
+5V
VKK
SCK
SIN(MtoF)
GND
XOUT
RESET
XIN
STB LED
TEST
D BUS IN
PREVIOUS/REW
PAUSE
PLAY
NEXT/FF
STOP
OPEN/CLOSE
/STILL
SOUT(FtoM)
LT1
XRDY
FL_OFF
STB_CONT
V_MUTE
XIRQ
K:China
F:Japan
N:Europe
S:S’Pore
U:USA and Canada
-AREA INDICATION-
RESET OUT
XRESET
S(FtoM)
E+5V
-27V
IR_SW
Heater
D-BUS
DC+3.5V
LT1
STB CONT
V_MUTE
XREADY
S(MtoF)
/TEST
SSCK
H
H
L
L
H
L1
L
MS1
L
L
(*1)
Pin No.
12
2LL
0
4
H
H
L
QF01 Pin No.11,12,14 SETTING
11
H24H
H
H
14
2
L
(*1)
JAPAN
USA
AUS
ASIA
EURO
--
CHINA
DistinationRegion
1
2
4
3
2
5
6
D-GND
(EJ)
D-GND
D-GND
D-GND
FL.OFF
P_TRG
P_TRG
EEP_SCL
EEP_SDA
PF02
PF01
-15.4V
-29.0V
-19.0V
+5.2V
+5.2V
+5.2V
+5.2V
+5.2V
+5.2V
+5.2V
+5.2V
+5.2V
+5.2V
+5.1V
+5.1V
+5.3V
+0V
+5.1V
+5.2V
+5.2V
+5.2V
+5.2V
-29.0V
-29.0V
-15.4V
-19.0V
+5.2V
+3.4V
+2.7V
+3.4V
XDIN
XDO
XCS
XSCL
+5.2V
L
H
V-PART
GRP
TITLE
192kHz
96kHz
CHP
SURROUND
LAST
TOTAL
COND
REMAIN
5.1CH
DOWN MIX
VCD
TRKD OFF
PROGRESSIVE
DOLBY D
LFE
C
R
L
S
LS
RS
V OFF
Page 16
2625
C
B
E
G
S
D
G
S
D
C
B
E
BLUE[0]
BLUE[1]
BLUE[2]
BLUE[3]
BLUE[4]
BLUE[5]
BLUE[6]
BLUE[7]
GREEN[0]
GREEN[1]
GREEN[2]
GREEN[3]
GREEN[4]
GREEN[5]
GREEN[6]
GREEN[7]
RED[0]
RED[1]
RED[2]
RED[3]
RED[4]
RED[5]
RED[6]
RED[7]
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
C5
C4
C3
C2
C1
2
3
1
1
2
3
4
5
6
7
8
91 0
11
12
1314 15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
31
2
3
1
2
3
1
2
31
2
2
3
1
PD02-1/3
4.7k
4.7k
10k
10k
BLM11B601S
0.1
10/10V
470
1000p
1000p
0.1
10/10V
BLM11B601S
BLM11B601S
0.1
10/10V
1000p
BLM11B601S
10/10V
0.1
1000p
0
0
0.1
0.1
0.1
0.1
10/10V
4.7k
N.C.
2.2k
2200p
68k
1k
JT01
RT16
RT17
RT02
QT04
RT01
LT04
QT03
CT18
CT19
RT11
CT14
CT15
CT16
CT17
LT03
LT02
CT12
CT13
CT11
LT01
CT10
CT09
CT08
RT20
RT19
CT07
CT06
CT05
CT04
CT03
RT04
RT03
DT02
QT05
QT06
RT18
CT20
DT03
RT08
DT01
QT02
RT07
JT02
QH11121-DPO
VCC3
SiI170RST
D-GND
2SC4116
VCC3
D-GND
SiI170B
D-GND D-GND
5VPIC
D-GND
VCC3
D-GND
VCC3
D-GND
VCC3
D-GND
DVSCL
DVSDA
D-GND
D-GND
D-GND
BLUE[0-7]
GREEN[0-7]
RED[0-7]
VOUTCLK
VSYNC
BLANK
HSYNC
VCC3
MSEN
D-GND
VCC3
D-GND
D-GND
1SS378
BSN20
VCC3
BSN20
D-GND
1SS378
D-GND
VCC3
2SC4116
D-GND
EARTH
DVI TERMINAL
DVI TRANSMITTER
Page 17
27 28
VDD
DQ0
VDDQ
DQ1
DQ2
VSSQ
DQ3
DQ4
VDDQ
DQ5
DQ6
VSSQ
DQ7
NC
VDD
DQM0
WE-
CAS-
RAS-
CS
NC
BA0
BA1
A10/AP
A0
A1
A2
DQM2
VDD
NC
DQ16
VSSQ
VSS
DQ15
VSSQ
DQ14
DQ13
VDDQ
DQ12
DQ11
VSSQ
DQ10
DQ9
VDDQ
DQ8
NC
VSS
DQM1
MCH
NC
CLK
CKE
A9
A8
A7
A6
A5
A4
A3
DQM3
VSS
NC
DQ31
VDDQ
DQ17
DQ18
VDDQ
DQ19
DQ20
VSSQ
DQ21
DQ22
VDDQ
DQ23
DQ30
DQ29
VSSQ
DQ28
DQ27
VDDQ
DQ26
DQ25
VSSQ
DQ24
VSSVDD
SDDATA0
SDDATA1
SDDATA2
SDDATA3
SDDATA4
SDDATA5
SDDATA6
SDDATA7 SDDATA8
SDDATA9
SDDATA10
SDDATA11
SDDATA12
SDDATA13
SDDATA14
SDDATA15
SDDATA16
SDDATA17
SDDATA18
SDDATA19
SDDATA20
SDDATA21
SDDATA22
SDDATA23 SDDATA24
SDDATA25
SDDATA26
SDDATA27
SDDATA28
SDDATA29
SDDATA30
SDDATA31
SDADDR0
SDADDR1
SDADDR3
SDADDR4
SDADDR5
SDADDR6
SDADDR7
SDADDR8
SDADDR9
SDADDR10
SDADDR11
SDDQM
XSDWE
XSDCAS
XSDRAS
SDDQM
SDDQM
SDCLK
SDDQM
SDDATA0
SDDATA1
SDDATA2
SDDATA3
SDDATA4
SDDATA5
SDDATA6
SDDATA7
SDDATA8
SDDATA9
SDDATA10
SDDATA11
SDDATA12
SDDATA13
SDDATA14
SDDATA15
SDDATA16
SDDATA17
SDDATA18
SDDATA19
SDDATA20
SDDATA21
SDDATA22
SDDATA23
SDDATA24
SDDATA25
SDDATA26
SDDATA27
SDDATA28
SDDATA29
SDDATA30
SDDATA31
SDADDR0
SDADDR1
SDADDR3
SDADDR4
SDADDR5
SDADDR6
SDADDR7
SDADDR8
SDADDR9
SDADDR10
SDADDR11
SDADDR2
VD0
VD1
VD2
VD3
VD4
VD5
VD6
VD7
XWR_IP
XRD_IP
SDCLK
SDDQM
XSDWE
XSDCAS
XSDRAS
DEINT
SDADDR12
SDADDR12
VCLK
XRD_IP
XWR_IP
SDADDR2
DVSCL
DVSDA
SiI504RST
DEINT
SiI504RST
VD7
VD6
VD5
VD3
VD2
VD1
VD0
VD4
VCLK
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
5354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
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
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
33
34
35
36
37
38
39
40
41
42
54
53
52
51
50
49
48
47
46
45
44
43
128
2
3
4
5
6
7
8
9
10
11
12
13
14
27
26
25
24
23
22
21
20
19
18
17
16
15
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
1234
9101112
5678
13141516
1234
9101112
5678
13141516
1234
9101112
5678
13141516
123
2
13
DEINT
SiI504RST
DVSCL
DVSDA
RED[7]
RED[6]
RED[5]
RED[4]
RED[3]
RED[2]
RED[1]
RED[0]
GREEN[7]
GREEN[6]
GREEN[5]
GREEN[4]
GREEN[3]
GREEN[2]
GREEN[1]
GREEN[0]
BLUE[0]
BLUE[1]
BLUE[2]
BLUE[3]
BLUE[4]
BLUE[5]
BLUE[6]
BLUE[7]
D-GND
0.1
0.1
0.1
0.1
10k
0.1
1M
0
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
10/6.3V
47/6.3V
10k
10k
2.2
10/10V
10k
4.7k
0
22/6.3V
2.2k
2.2k
4.7k
22
2.2k
2.2k
2.2
10/10V
2.2
47/6.3V
100
2200p
RES
100
2200p
10/6.3V
2.2
2.2
47/6.3V
0
0
0
0
0
0
0
0
BLM11P600S
0
22
22
22
10
10
10
N.C.
N.C.
0.1
0.1
QH21
QH22
CH45
CH47
CH32
QH71
CH22
RH29
CH43
RH78
RH79
CH33
CH34
CH35
CH36
CH37
CH38
CH39
CH40
CH41
CH28
CH29
CH30
CH31
CH27
CH26
CH25
CH24
CH23
CH76
CH72
CH05
CH03
RH75
RH76
LH01
CH01
RH77
RH82
RH30
CH21
RH72
RH73
RH28
RH27
RH81
RH80
LH02
CH02
LH05
CH07
JH01
RH31
CH42
RH74
RH71
CH71
CH04
LH03
LH04
CH06
RH01
RH02
RH03
RH04
RH05
RH06
RH07
RH08
LH21
RH09
RH23
RH22
RH21
RH26
RH25
RH24
QH01
CH73
CH74
XH71
CH46
CH75
SiI504
K4S643232E-TC60
P3.3V
D-GND D-GND
P3.3V
P3.3V
D-GND
PIC16C63A
P3.3V
D-GND
D-GND
5VPIC
D-GND
5VPIC
D-GND
P1.8V
P1.8V
D-GND
P1.8V
SW+3.3V
P3.3V
D-GND
SW+5V
5VPIC
D-GND
D-GND
5VPIC
VCC5E
D-GND
E+5V
VCC3
D-GND
SW+3.3VSW+3.3V
BLANK
VSYNC
HSYNC
VOUTCLK
BLUE[0-7]
GREEN[0-7]
RED[0-7]
D-GND
SW+5V
E+5V
SW+3.3V
D-GND
D-GND
D-GND
D-GND
DEINT
SiI504RST
DVSCL
DVSDA
D-GND
BA18BC0FP
P1.8V
D-GND
D-GND
D-GND
20MHz
PD02-2/3
TO J711
(PD01)
I/P VIDEO SCAN CONVETER
Page 18
3029
RS-232C
31
2
12345
6789
31
2312312
48
14
15
16
17
18
19
20
21
22
23
24
3635343332313029282726
25
40
41
42
13
47
46
45
44
43
39
38
37
121110
987654321
12345678910
2011 12 13 14 15 16 17 18 19
2
13
54
123
1
2
3
4
5
6
231
12
21
43
XDO
XDIN
XSCL
XIRQ
XCS
XDO
XDIN
XSCL
XIRQ
XCS
0.01
DZ101A1-B2
BLM11B252SD
BLM11B252SD
BLM11B252SD
BLM11B252SD
0
0
0
22k
22k
4.7/20V
0.01
0.01
4.7/20V
0.01
4.7/20V
0.01
4.7/20V
0.01
4.7/20V
BLM11P600S
H8/3672
0.01
0.01
BLM11P600S
10/10V
N.C.
N.C.
0.01
4.7k
100p
0
0
0
0
0
4.7k
10k
1M
0
4.7k
0
4.7k
4.7k
4.7k
0.01
100
0.01
DI94
CI62
JI91
LI91
LI92
LI93
LI94
DI93DI92DI91
RI91
RI92
RI93
RI81
RI82
CI92
CI91
CI88
CI87
CI84
CI83
CI86
CI85
CI82
CI81
LI81
QI61
QI81
CI61
CI66
LI61
CI68
XI62
CI63
CI64
CI67
QI62
RI61
CI65
JI51
RI51
RI52
RI53
RI54
RI55
RI62
RI63
RI95
RI96
RI67
RI94
RI66
RI65
RI64
SI62
CI69
SI61
RI68
CI70
D-GND
N.C.
D-GND
D-GND
D-GND
N.C.N.C.
D-GNDD-GND
N.C.
D-GND
D-GNDD-GND
VCC5E
uPD4721
D-GND
D-GNDD-GND D-GND
VCC5E
16MHz
BD4742G
D-GND
D-GND
D-GND
DVSDA
DVSCL
SiI504RST
SiI170RST
MSEN
DEINT
D-GND
D-GND
VCC5E
D-GND
D-GND
D-GND
D-GNDD-GND
5VPIC
VCC5E
D-GND
D-GND
D-GND
D-GND
5VPIC
VIDEO EXPAND SW
NORMAL
EXPAND
OFF:Normal
ON :Rewrite
UI01
TO JF04
(PF01)
PD02-3/3
RS232C
DRIVER
SUB CPU
1
2
3
5
6
7
8
9
10
11
12
13
4
14
15
16
17
18
19
20
21
1
2
3
1
2
3
4
5
6
7
8
9
10
11
12
31
2
31
2
31
2
31
2
D
AR-OUT
N.C.
AL-OUT
V-GND
N.C.
B-OUT
F-SW
V-GND
N.C.
G-OUT
N.C.
V-GND
A-GND
V-GND
R/C_OUT
RGB-SW
V-GND
V-GND
CV/Y_OUT
N.C.
V-GND
100/16V
330p
100
100
330p
3339
3339100/16V
39 33100/16V
470/6.3V 3339
0.01
0.01
0
0
0
0
0
0
0
0
J801
J950
J802
C801
C950
R950
R951
C951
R802R801
R804R803C802
R805 R806C803
C804 R808R807
D804D803D802D801
C806
C805
L950
L951
L801
L802
L803
L804
L805
L806
V-GND
A-GNDA-GND A-GND
01ZA8.201ZA8.201ZA8.201ZA8.2
V-GNDV-GNDV-GNDV-GND
V-GND
V-GND
V-GND
A-GND
TV-SCART
SAR
GND
SAL
+12VV
F-SW
RGB SW
B
V-GND
G
V-GND
R/C
V-GND
V/Y
V-GND
Y
/N ONLY
TO J204
(PM01)
TO J851
(PM01)
Page 19
31 32
QV05 QV07 QV09 Q852 Q855 Q858 QC02 QB02 QY02
QV04 QV06 QV08 QA02 QA03 QA04 QC01 QB01 QY01
QA01
QE01
QE05 QE04
QE03
QE02
QV10
Q853 Q856
QV11
Q860 Q861 Q859
QY04
QY03
QD41
QD21 QD01
Q509
Q508
Q507
Q346 Q343
Q345 Q344
Q356 Q353
Q355 Q354
Q539 Q409
Q538 Q408
Q537 Q407
Q326 Q323
Q325 Q324
Q336 Q333
Q335 Q334
Q439 Q209
Q438 Q208
Q437 Q207
Q306 Q303
Q305 Q304
Q316 Q313
Q315 Q314
Q502 Q501
Q532 Q531
Q402 Q401
Q432 Q431
Q202 Q201
Q232 Q231
Q239
Q238
Q237
QI02
QI01
Q206 Q236
Q434
Q204
Q234
Q404Q504 Q534
QV01
QV02
Q863 Q865
Q862 Q864
QV12
PM01
QV03
Q341 Q351 Q321 Q331 Q301 Q311
QI03
11. PARTS LOCATION
Page 20
3433
QH71
QI61
QI62
QI81 QH22
QH21
QH21
QT03
QT04
QT05 QT06
PD02
PF01
QF01
QF07
QF06 QF05
QF04
QF08
QF02
PD01
Q710 Q709 Q708 Q707
Q702 Q701
Q703 - Q706
Q644 Q604
Q602
Q713
Q712
Q711
Q601
Q716 Q715
Q605
Q714
Q606
Page 21
35
QP05 QP09
QP02
QP01
QP04
QP06 QP07
QP54
QP53 QP63
QP56 - QP60
QP08
QP51 QP61 QP62
QP50 QP52
PS01
PS02
PF02
Page 22
36
QF01:TMP87PM74F
12 MICROPROCESSOR AND IC DATA
Pin PORT Signal name I/O Contents of control
1 P02/SO1 SOUT (F to M) O Serial bus data output for DV747
2 P03 RESET_OUT O For the DV747 RESET terminal control RESET: L
3 P04
4 P05 XRDY O Serial data communication request signal for DV747 High: request /Low: no
5 P06 SCL O I2C clock (EEPROM control) AT24C04
6 P07 SDA I/O I2C data (EEPROM control) AT24C04
7 VSS GND
8 XOUT 8MHz X’TAL
9 XIN 8MHz X’TAL
10 RESET RESET I Reset signal for the microprocessor
11 P22 MODEL1 I Set up of version
12 P2 MODEL2 I Set up of version
13 TEST GND
14 P20 MODEL3 I Set up of version
15 P10 ILM_LED O ILM LED for FL Light burned: H
16 P11 STB_LED O It is light at the STANDBY Light burned: H
17 P12 FL_OFF_LED O Lighting (FL Lights-out) Light burned: H
18 P13 STB_CONT O Power supply control for DV747 Stand-by time: LOW
19 P14 V_MUTE O Mute control for Video At the time of Mute: L
20 P15 LT1 I Serial bus data Ready/Busy input for DVD747 High:Ready/Low:Busy
21 P16 XIRQ I Serial bus data receiving control for Sub
microprocessor
22 P17/TC3 IR I IR sensor input
23 P DIN I Serial bus data output for Sub maicroprocessor
24 P31 DO O Serial bus data input for Sub microprocessor
25 P32 SCK I Serial bus clock input for Sub microprocessor
26 P40 XCS O Serial bus data transmitting control for Sub
microprocessor
27 P41 KEY_IN_0 I Key matrix input (Tactile switch)
28 P42 KEY_IN_1 I Key matrix input (Tactile switch)
29 P43 KEY_IN_2 I Key matrix input (Tactile switch)
30 P44 KEY_IN_3 I Key matrix input (Tactile switch) spare
31 P45
32 P46
33 P47 GND
34 P50 KEY_OUT_0 O Tactile switch spare
35 P51 KEY_OUT_1 O Tactile switch
36 P52 KEY_OUT_2 O Tactile switch
37 P53 KEY_OUT_3 O Tactile switch
38 VASS GND GND for A/D
39 VAREF +5V O A reference voltage for A/D
40 VDD +5V Power supply
41 P60 N.C.
42 P6 N.C.
43 P62 G11 O FL indication
44 P63 G10 O FL indication
45 P64 G9 O FL indication
46 P65 G8 O FL indication
47 P66 G7 O FL indication
48 P67 G6 O FL indication
49 P70 G5 O FL indication
50 P71 G4 O FL indication
51 P72 G3 O FL indication
52 P73 G2 O FL indication
53 P74 G1 O FL indication
54 P75 N.C.
55 P76 N.C.
56 P77 N.C.
57 P80 N.C.
58 P81 N.C.
59 P82 N.C.
60 P83 P18 O FL indication
Page 23
37
Pin PORT Signal name I/O Contents of control
61 P84 P17 O FL indication
62 P85 P16 O FL indication
63 P86 P15 O FL indication
64 P87 P14 O FL indication
65 P90 P13 O FL indication
66 P91 P12 O FL indication
67 P92 P11 O FL indication
68 P93 P10 O FL indication
69 P94 P9 O FL indication
70 P95 P8 O FL indication
71 P96 P7 O FL indication
72 P97 P6 O FL indication
73 PD00 P5 O FL indication
74 PD01 P4 O FL indication
75 PD02 P3 O FL indication
76 PD03 P2 O FL indication
77 PD04 P1 O FL indication
78 VKK -27V Power supply for the FL drive
79 P00/
SCK1
SCK O Serial bus clock output for DV747
80 P01/SI1 SIN (M to F) I Serial bus data input for DV747
Page 24
38
No Name Port I/O Function
1 +5V Avcc 2NC NC 3NC NC 4 Vcl 5 RESET RES - RESET
6 GND TEST 7 GND Vss 8 X2 OSC2 -
9 X1 OSC1 10 +5V Vcc 11 P50/WKP0
12 P51/WKP1
13 P52/WKP2
14 P53/WKP3
15 P54/WKP4
16 DVI_SW P55/WKP5/ADTRG I Hi: ON, Low: soft control
17 V_EXPAND P10 I Hi: OFF, Low: ON
18 P_MONITOR P11 I Hi: Power ON, Low: Standby
19 SiI170RST P12 O
20 SiI504RST P56 O
21 DEINT P57 I
22 MSEN P74/TMRIV I
23 DVSCL P75/TMCIV O
24 DVSDA P76/TMOV IO
25 MD NMI I
26 XDO P80/FTCI I Front Microprocessor
27 XDIN P81/FTIOA O Front Microprocessor
28 XSCL P82/FTIOA O Front Microprocessor
29 XIRQ P83/FTIOC O Front Microprocessor
30 P84/FTIOD
31 E10T_0 E10T_0 - For ET10T Emulator
32 E10T_1 E10T_1 - For ET10T Emulator
33 E10T_2 E10T_2 - For ET10T Emulator
34 P20/SCK3
35 RXD P21/RXD I RS-232C
36 TXD P22/TXD O RS-232C
37 RTS P14/IRQ0 O RS-232C
38 CTS P15 I RS-232C
39 P16 O
40 XCS P17/IRQ3/TRGV I Front Microprocessor
41 NC NC 42 NC NC 43 NC NC 44 NC NC 45 GND PB3/AN3 I
46 GND PB2/AN2 I
47 GND PB1/AN1 I
48 GND PB0/AN0 I
QI61:HD64F3672FX
Page 25
39
Pin # PIC Port Type Signal Name Description
1 MCLR- Input
note 1
DVRESET- Reset signal to both MC504 and SiI504
(Requires Vih min =0.8V
DD,
NOT TTL)
2 RA0 Bidir DVSDA Local Serial Port Data
3 RA1 Output DVSCL Local Serial Port Clock
4 RA2 Input
TTL
SUBT - Subtitle Detect: low = look for out-of-sequence
subtitles, high = no subtitles
5 RA3 Input
TTL
FILM- Film Bias Mode: low = film bias mode, high =
normal detection mode. Do not set low unless this
signal can be dynamically controlled.
6 RA4 Input
ST
PFDA - PFDA Enabled: low = enable software assist, high
= disable software-assist
7 RA5 Input
TTL
SA Serial Port Address Bit - tracks SiI504 Serial
Address bit 0High selects address 0xEC, low selects
address0xE2
8 VSS Pwr/Gnd VSS Ground
9 OSC1 Input
note 1
OSC1 Crystal Input 20MHz
(Requires Vih min =0.7V
DD,
NOT TTL)
10 OSC2 Output OSC2 Crystal Output 20MHz
11 RC0 Input ST GMODE- Game Mode enable: low = game mode enabled,
high = disabled
12 RC1 Input ST EXTGMD- Game mode detect: low = external detect (pin 11),
high = auto-detect
13 RC2 Input ST RSVD1 Always tie this pin High
14 RC3 Bidir ST SCL External Serial Port Clock
15 RC4 Bidir ST SDA External Serial Port Data
16 RC5 Input ST RSVD0 Reserved
17 RC6 Output RSVD-TX Reserved serial port transmit
18 RC7 Input ST RSVD-RX Reserved serial port receive
19 VSS Pwr/Gnd VSS Ground
20 VDD Pwr/Gnd VDD +5V
21 RB0 Input
ST
DEINTDONE- Interrupt input pin. Connect to DeIntDone-
signal from SiI504, an open drain signal. Pull-up
to 5V with 4.7K resistor
(Requires Vih min =0.8V
DD,
NOT TTL)
22 RB1 Input
TTL
GPIO_0 General Purpose I/O pin 0
23 RB2 Output PRMODE0 Processing mode encoding 0
24 RB3 Output PRMODE1 Processing mode encoding 1
25 RB4 Input
TTL
SQMODE- Squeeze Mode: low = squeeze mode, high = normal
26 RB5 Input
TTL
YPRPB- Color Space Select: low = YPrPb, high = RGB
27 RB6 Input
TTL
GPIO_1 General Purpose I/O pin 1
28 RB7 Input
TTL
WAVE- Wave (or Anti-burn-in) mode: low = enabled, high
= disabled
(Only relevant for squeeze mode.)
ST: Schmitt Trigger Input. See Section 4 for more details.
TTL: TTL level input. See Section 4 for more details.
Note 1: MCLR and OSC1 input levels are specified in Section 4.
QH71:MC504
Page 26
40
QH21: SiI 504
SiI 504
HostAddr7
157
158
156
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
1234578910111213141516171819202122232425262728293031323334353637383940414243444546474849505152
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
6
RSVD
VDDCore
GNDCore
LCDPwrEn
/CBlank
/CSync
/VSync
/HSync
Blue_Cb0
Blue_Cb1
Blue_Cb2
Blue_Cb3
Blue_Cb4
Blue_Cb5
GNDIO
VDDIO
Blue_Cb6
Blue_Cb7
Blue_Cb8
Blue_Cb9
GNDIO
Green_Y0
Green_Y1
Green_Y2
Green_Y3
VDDIO
Green_Y4
Green_Y5
Green_Y6
Green_Y7
Green_Y8
Green_Y9
GNDIO
Red_Cr0
Red_Cr1
Red_Cr2
Red_Cr3
Red_Cr4
Red_Cr5
GNDCore
VDDCore
Red_Cr6
Red_Cr7
Red_Cr8
Red_Cr9
VidOutClk
GNDCore
/
BypPLLClk48M
Clk48M
GNDCore
VDDCore
/ExtRefSel
RSVD
GNDCore
MemClk
GNDCore
VDDCore
MemData14
MemData13
MemData12
MemData11
MemData10
GNDIO
MemData9
MemData8
PuPdDis
VDDIO
MemData0
MemData1
MemData2
GNDIO
MemData3
MemData4
MemData5
MemData6
MemData7
GNDIO
DQM
/WE
/CAS
/RAS
VDDIO
VDDIO
GNDIO
RSVD
MemAddr11
MemAddr10
MemAddr9
GNDIO
MemAddr8
MemAddr7
MemAddr6
GNDIO
MemAddr5
MemAddr4
MemAddr0
MemAddr1
MemAddr2
MemAddr3
VDDCore
GNDCore
RSVD
RSVD
HostAddr5
HostAddr4
HostAddr3
HostAddr2
HostAddr1
HostAddr0
GNDCore
/HostCS
/HostRd_SDA
/HostWr_SCL
VDDCore
VidInClk
GNDIO
VidInData9
VidInData8
VidInData7
VidInData6
VidInData5
VidInData4
VidInData3
VidInData2
VDDIO
ExtRefXtalOut
ExtRefXtalIn
VDDIO
GNDIO
MemData16
MemData17
MemData18
MemData19
GNDIO
MemData20
MemData21
MemData22
MemData23
GNDIO
MemData31
MemData30
GNDIO
VDDIO
MemData29
MemData28
GNDIO
MemData27
MemData26
MemData25
MemData24
MemData15
/BypPLLMemCl
k
GNDCore
VDDCore
RSVD
HostAddr6
HostMode
VDDCore
HostClk
HostData15\VidInData19
GNDcore
HostData14\VidInData18
HostData13\VidInData17
HostData12\VidInData16
VDDCore
GNDCore
HostData11\VidInData15
HostData10\VidInData14
HostData9\VidInData13
RSVD
HostData8\VidInData12
HostData7\VS
HostData6\HS
HostData5
HostData3
HostData4
HostData2
HostData1
HostData0
GNDIO
VDDIO
/Det32PD
/Det22PD
/DetVideo
MemAddr12
/DeintDone
VDDIO
GNDIO
SDOut
SCKOut
VDDIO
SDIn
WSIn
GNDIO
SCKIn
VDDCore
/Reset
Test0
/BypPLLClk54_72M
Test1
Clk54_72M
VDDCore
GNDCore
AVDD
ARTN
WSOut
RSVD
Signal Group Signal Name Notes Type Description
Video Input VidInData[9:2] 5V In Multiplexed Video Input Data (ITU-R BT.656,
8-bit & H/V syncs formats); Y (luma) Video
Input Data (16-bit & H/V syncs format).
VidInData[19:12] 5V/PD In Chroma Video Input Data (16-bit & H/V syncs
(HostData[15:8]) format only). See Host Interface pin list for
pin functions when not used for video input.
VS 5V/PD In Vertical Sync input (8/16-bit & H/V syncs
(HostData[7]) format only). See Host Interface pin list for
pin function when not used for video input.
HS 5V/PD In Horizontal Sync input (8/16-bit & H/V syncs
(HostData[6]) format only). See Host Interface pin list for
pin function when not used for video input.
VidInClk 5V In Video Input Clock, 27.0 MHz
Video Output Red_Cr[9:0] Out Red Data (RGB output mode);
Cr Data (YCrCb output mode)
Green_Y[9:0] Out Green Data (RGB output mode);
Y Data (YCrCb output mode)
Blue_Cb[9:0] Out Blue Data (RGB output mode);
Cb Data (YCrCb output mode)
/HSync Out Horizontal Sync
/VSync Out Vertical Sync
/CSync Out Composite Sync
/CBlank Out Composite Blank
LCDPwrEn Out LCD Power Enable
VidOutClk Out Video Output Clock, 36, 27 or 24 MHz
Clk48M 5V InOut 48 MHz Clock. Normally, this pin is a no-
connect, outputting an internal PLL-generated
48.0 MHz clock and receiving that same clock
through its input buffer. To bypass the PLL,
set /BypPLLClk48M = 0, and supply a 48.0
MHz clock to the Clk48M pin.
Signal Group Signal Name Notes Type Description
Memory /RAS Out SDRAM Row Address Strobe.
/CAS Out SDRAM Column Address Strobe.
/WE Out SDRAM Write Enable.
DQM Out SDRAM Data Mask.
MemData[31:0] 5V InOut SDRAM Data.
MemAddr[12:0] 5V/PU/PD InOut SDRAM Address when an output.
Configuration at reset when and input.
See Memory Subsystem an Hardware
Configuration sections of Functional
Description for details. (Note: MemAddr12
is an output-only pin, does not have an
internal pullup or pulldown, and is not part
of the startup configuration.)
MemClk 5V InOut SDRAM Clock. Normally, this pin is an InOut,
outputting an internal PLL-generated 66.0
MHz or 72.0 MHz clock to the SDRAM and
receiving that same clock through its input
buffer. To bypass the PLL, set
/BypPLLMemClk = 0, and supply a 66.0 MHz
or 72.0 MHz clock to MemClk.
/BypPLLMemClk 5V/PU In Bypass PLL for MemClk. Normally, this pin is
a no-connect, and the internal pullup ensures
that the PLL is enabled. To bypass the PLL,
set /BypPLLMemClk = 0, and suppy a 66.0
MHz or 72.0 MHz clock to the MemClk pin
Host Interface /HostWr_SCL 5V/H In 186-Compatible Write when HostMode = 0.
Serial Clock when HostMode = 1.
/HostRd_SDA 5V/H InOut 186-Compatible Read when HostMode = 0.
Serial Data (InOut, open drain output) when
HostMode = 1.
/HostCS 5V/PU In 186-Compatible Chip Select when
HostMode=0. When HostMode=1, must be
tied to VDD or pulled up to VDD.
HostAddr[7:0] 5V/PD In 186-Compatible Address when HostMode = 0.
No connect when HostMode = 1.
Page 27
41
Signal Group Signal Name Notes Type Description
Video Output /BypPLLClk48M PU In Bypass PLL for Clk48M. Normally, this pin is
(continued) a no-connect, and the internal pullup ensures
that the PLL is enabled. To bypass the PLL,
set /BypPLLClk48M = 0, and supply a 48.0
MHz clock to the Clk48M pin.
Clk54_72M 5V InOut 54 or 72 MHz Clock. Normally, this pin is a
no-connect, outputting an internal PLLgenerated 54.0 MHz or 72.0 MHz clock and
receiving that same clock through its input
buffer. To bypass the PLL, set
/BypPLLClk54_72M = 0, and supply a 54.0
or 72.0 MHz clock to the Clk54_72M pin. -
/BypPLLClk54_72M 5V/PU In Bypass PLL for Clk54_72M. Normally, this
pin is a no-connect, and the internal pullup
ensures that the PLL is enabled. To bypass
the PLL, set /BypPLLClk54_72M = 0, and
supply a 54.0 MHz or 72.0 MHz clock to the
Clk54_72M pin.
Audio/Video SDIn 5V/PD In Serial Digital Audio Input Data. See Audio/
Synchronization Video Synchronization section of Functional
Description for audio formats supported.
WSIn 5V/PD In Serial Digital Audio Input Word Select. See
Audio/Video Synchronization section for audio
formats supported.
SCKIn 5V/PD In Serial Digital Audio Input Clock. Frequency
range of clock is 1.411 to 6.144 MHz. See
Audio/Video Synchronization section for
audio formats supported.
SDOut Out Serial Digital Audio Output Data. Audio
output follows audio input, with a delay equal
to that of the video processing pipeline.
WSOut Out Serial Digital Audio Output Word Select.
Audio output follows audio input, with a delay
equal to that of the video processing pipeline.
SCKOut 5V/PD In Serial Digital Audio Output Clock. Same
frequency as SCKIn. SDOut and WSOut are
generated from SCKOut. See Audio/Video
Synchronization section for more details on
on audio clocking.
Signal Group Signal Name Notes Type Description
Host Interface HostData[15:8] 5V/PD InOut 186-Compatible Data when HostMode = 0.
(continued) (VidInData[19:2]) Chroma video input data (16-bit & H/V syncs
format) when HostMode = 1.
HostData[7] 5V/PD InOut 186-Compatible Data when HostMode = 0.
(VS) Vertical sync input (8/16-bit & H/V syncs
format) when HostMode = 1.
HostData[6] 5V/PD InOut 186-Compatible Data when HostMode = 0.
(HS) Horizontal sync input (8/16-bit & H/V syncs
format) when HostMode = 1.
HostData[5:0] 5V/PD InOut 186-Compatible Data when HostMode = 0.
No connnect when HostMode = 1.
HostClk 5V InOut 186-Compatible Clock (33.33 MHz max) when
HostMode = 0. No Connect (27.0 MHz,
InOut) when HostMode = 1. Note that when
HostMode= 1, the clock output on HostClk
is also received and used internally.
HostMode 5V/PU In Serial Host Interface when HostMode = 1
(internal pullup defaults to this mode). 186compatible host interface when HostMode = 0.
Video Processing /Det32PD Out 3:2 Pulldown Sequence Detected.
Status /Det22PD Out 2:2 Pulldown Sequence Detected.
/DetVideo Out Interlaced Video Sequence Detected.
/DeintDone Out Deinterlace processing complete for current
field period. Opendrain output.
External APLL /ExtRefSel 5V/PU In External APLL Reference Select. Internal
Reference Clock pullup defaults pin to a 1, selecting VidInClk
as the APLL reference clock. To select
ExtRefXtalIn as the APLL reference clock,
set /ExtRefSel to a 0.
ExtRefXtalIn In External APLL Reference Crystal/oscillator
Input.
ExtRefXtalOut Out External APLL Reference Crystal Output.
QH21: SiI 504
Pin Descrtiption Notes:
1) A "/" preceding a signal name indicates that the signal is active low - i.e., that the signal is asserted or
active when low. All other signals are active high.
2) Abbreviations in Notes column of pinout table:
5V: 5 volt tolerant input
PU: internal pullup
PD: internal pulldown
H: Hysteresis on input
3) The pins HostData[15:6] are used for two distinct functions. When HostMode = 0, these pins are 186compatible data pins. When HostMode = 1, they may be either no connects, or are used for the non-656
video input port. This dual functionality is noted in the pin description table with the unused signal function
name in parentheses, and in the Pin Number table and Pin Diagram with the dual pin function names separated by a backslash ("\").
4) Pins marked "Reserved" should be left unconnected - i.e., they should not be pulled up, pulled down,
grounded, connected to a power supply source, or any other signal.
Signal Group Signal Name Notes Type Description
Reset /Reset 5V/H In Hardware Reset.
Test Test[1:0] 5V/PD In Production hardware test support.
PuPdDis 5V In Internal pullup and pulldown disable test
function. Connect to ground for normal
operation.
Power AVDD Pwr 1.8V Analog Power for PLL. (Qty: 1)
ARTN Pwr Analog Return for PLLs. (Qty: 1)
VDDCore Pwr 1.8V Core Power. (Qty: 11)
GNDCore Pwr Digital Ground for Core Power. (Qty: 12)
VDDIO Pwr 3.3V I/O Power. (Qty: 11)
GNDIO Pwr Digital Ground for I/O Power. (Qty: 18)
Page 28
42
1
2
3
4
5
6
7
8
9
10
20
19
18
17
16
15
14
13
12
11
D
IN1
DIN2
ROUT1
ROUT2
STBY
V
CHA
DOUT1
DOUT2
RIN1
RIN2
VDD
C1
+
V
CC
C1
Ð
C
5
+
C
5
Ð
C
4
+
GND
C
4
Ð
V
SS
+10 V
C
3
C1
C5
Ð10 V
+
C
2
C4
+
+
+
Note 4
300
300
5.5 k
5.5 k
+3.3 V
or
+5 V
+
Truth Table
Driver
STBY DIN DOUT Remarks
L Z Standby mode (DC/DC converter is stopped)
H L H Space level output
H H L Mark level output
Receiver
STBY RIN ROUT Remarks
L H Standby mode (DC/DC converter is stopped)
H L H Mark level input
H H L Space level input
3 V 5 V switching
VCHA Operating mode
L 5 V mode (double step-up)
H 3 V mode (3 times step-up)
H: high-level, L: low-level, Z: high-impedance, : H or L
QI81:µPD4721
Page 29
43 44
QT03:SiI 170B
VCC
DE
VREF
HSYNC
VSYNC
CTL3
NC
NC
HTPLG
PD#
MSEN
VCC
ISEL/R ST#
SDAS
SCLS
GND
PGND1
PVCC1
EXT_SWING
AGND
TXC-
TXC+
AVCC
TX0-
TX0+
AGND
TX1-
TX1+
AVCC
TX2-
TX2+
VCC
RESERVED
GND
D23
D22
D21
D20
D19
D18
D17
D16
D15
D14
D13
D12
PGND2
PVCC2
D11
D10
D9D8D7
D6
IDCK-
IDCK+
D5D4D3D2D1
D0
GND
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
171819202122232425262728293031
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
505152
535455565758596061
626364
SiI
170 B
64- Pin LQ FP
(Top Vi e w)
AGND
HDCP
Encryption
Engine
HDCP
Keys
EEPROM
Registers
----------------
Configuration
Logic Block
PanelLi nk
TMDS
TM
Digital
Core
XOR
Mask
encrypted
data
Data
Capture
Logic
Block
clear data
control signals
I2C
Slave
DE
Gen
CTL3
DE
D[23:0]
SDAS
SCLS
HSYNC
VSYNC
IDCK+
IDCK-
EXT_SWING
TXC±
TX0±
TX1±
TX2±
HTPLG
PD#
ISEL/RST#
MSEN
Functional Block Diagram
Input Pins
Pin Name Pin # Typ e Description
D23-D12 See Pin
Diagram
In Upper 12 bits of 24-bit pixel bus. Mode controlled by configuration register bit:
When BSEL = HIGH, this bus inputs the top half of the 24-bit pixel bus.
When BSEL = LOW, these bits are not used to input pixel data. In this mode, the
state of D[23:16] is input to the I
2
C register CFG. This allows an extra 8-bits of user
configuration data to be read by the graphics controller through the I
2
C interface
(see I
2
C register definition).
D11–D0 See Pin
Diagram
In Bottom half of 24-bit pixel bus / 12-bit pixel bus input. Mode controlled by
configuration register bit:
When BSEL = HIGH, this bus inputs the bottom half of the 24-bit pixel bus.
When BSEL = LOW, this bus inputs ½ a pixel (12-bits) at every latch edge (both
falling and/or rising) of the clock.
IDCK+ 57 In Input Data Clock +. This clock is used for all input modes.
IDCK- 56 In Input Data Clock –. This clock is only used in 12-bit mode when dual edge clocking
is turned off (DSEL = LOW). It is used to provide the ODD latching edges for multi-
phased clocking. If (BSEL = HIGH) or (DSEL = HIGH) this pin is unused and should
be tied to GND.
DE 2 In Data enable. This signal is high when input pixel data is valid to the transmitter and
low otherwise.
HSYNC 4 In Horizontal Sync input control signal.
VSYNC 5 In Vertical Sync input control signal.
Input Voltage Reference Pin
Pin Name Pin # Typ e Description
VREF 3 Analog
In
Must be tied to 3.3V.
Power Management Pin
Pin Name Pin # Typ e Description
PD# 10 In Power Down (active LOW). A HIGH level (3.3V) indicates normal operation and a
LOW level (GND) indicates power down mode. During power down mode, the I
2
C
pins are active, but digital input, output buffers and the PanelLink Digital core are
powered down. This pin should be tied LOW to ensure the chip is powered off when
RESET is asserted.
When PD# is asserted, the differential output pins for TMDS are tri-stated until the
PD# register bit is asserted through I
2
C.
Differential Signal Data Pins
Pin Name Pin # Typ e Description
TX0+
TX0-
TX1+
TX1-
TX2+
TX2-
25
24
28
27
31
30
Analog
Analog
Analog
Analog
Analog
Analog
TMDS Low Voltage Differential Signal output data pairs.
These pins are tri-stated when PD# is asserted.
TXC+
TXC-
22
21
Analog
Analog
TMDS Low Voltage Differential Signal output clock pairs.
These pins are tri-stated when PD# is asserted.
EXT_SWING 19 Analog Voltage Swing Adjust. A resistor should tie this pin to AVCC. This resistor
determines the amplitude of the voltage swing. A 510 ohm resistor is recommended
for remote display applications. For notebook computers, 680 ohm is
recommended.
Configuration/Programming Pins
Pin Name Pin # Typ e Description
MSEN 11 Out Monitor Sense. This pin is an open collector output. The output is programmable
through the I
2
C interface (see I2C register definitions). An external 5K pull-up
resistor is required on this pin.
RESERVED 34 In This pin is reserved for Silicon Image use only and should be tied LOW for normal
operation.
NC 7,8 NC These pins are not electrically connected inside the package.
Control Pins
These control pins allow configuration of the transmitter through the slave I2C port, which is required by HDCP.
Pin Name Pin # Typ e Description
ISEL/RST# 13 In I2C Interface Select. If HIGH, then the I2C interface is active.
SCLS 1 5 In DDC I
2
C
Clock. This pin is a slave I
2
C clock line which interfaces to the DDC bus for
communicating with a host side master. HDCP KSV, A
n,
and Ri values are
exchanged over this DDC bus during authentication. The clock may be run up to
400kHz. This pin is not 5V-tolerant; it should be connected through a level shifter to
the DDC clock line SCL. This is an open-collector pin.
SDAS 1 4 In/Out DDC I2C Data. This pin is a slave I2C data line for communicating with a host side
master. HDCP KSV, A
n,
and Ri values are exchanged over this DDC bus during
authentication. Data may be clocked in at up to 400kHz. This pin is not 5V-tolerant;
it should be connected through a level shifter to the DDC clock line SDA. This is an
open-collector bi-directional pin, and is not made high-impedance when PD#=LOW.
CTL3 6 In External CTL3. This pin is used to bring in the CTL3 signal for HDCP when the
HDCP encryption is performed before the video enters the SiI 170. To enable this
input, the CTL3 bit must be programmed in Reg[0x08]. If the CTL3 bit is cleared,
then this input pin is ignored and may be left unconnected. This pin is a regular high
swing (3.3V) input, containing a weak pull-down resistor so that if left unconnected it
will default to LOW.
HTPLG 9 In Monitor Charge Input. This pin is used to connect to the DVI Hot Plug pin to detect
the presence of an attached monitor.
Power and Ground Pins
Pin Name Pin # Ty pe Description
VCC 1,12,33 Power Digital VCC. Connect to 3.3V supply.
GND 16,35,64 Ground Digital GND.
AVCC 23,29 Power Analog VCC. Connect to 3.3V supply.
AGND 20,26,32 Ground Analog GND.
PVCC1 18 Power Primary PLL Analog VCC. Connect to regulated 3.3V supply.
PVCC2 49 Power Filter PLL Analog VCC. Connect to regulated 3.3V supply.
PGND1 17 Ground PLL Analog GND.
PGND2 48 Ground PLL Analog GND.
Page 30
4645
13. EXPLODED VIEW AND PARTS LIST
(K ) STEEL /SILVER
003B
5128
3X10( M)
x2
010Bx2
001B
005B
009B
011B
012B
5126
3X8(M)
x2
008B
PF0 2
PS02
013Bx2
018B
006B
5128
3x8( M)
x3
VF0 1
055B
PF0 1
056B
057Bx2
045B
007B
002B
001G
010Gx2
5126
3X10(M)
x4
009Gx2
005G
990G
UONLY
5128
3X8(M)
x2
5128
3X5(M)
x3
5128
3X5(M)
x2
031G
017Bx2
5128
3X8(M)
x4
012Gx2
100G
I
N
V
I
S
I
B
L
E
L
A
S
E
R
R
A
D
I
A
T
I
O
N
W
H
E
N
O
P
E
N
.
A
V
O
I
D
D
I
R
E
C
T
E
X
P
O
S
U
R
E
T
O
B
E
A
M
.
5127
3x8( M)
x9
W001
5128
3X8(M)
x4
5127
3x8( M)
PM0 1
5129
3x8( M)
x2
5110
3X6(M)
x2
901G
J001
5129
3x8( M)
5128
3x8( M)
x2
090G
031Gx3
926G
x4
5126
3x8( M)
070G
x2
L001, 002
5110
3X8(M)
x2
L003, 004
050B
051B
002M
004M
003M
5125
3X8(U)
x4
5192
1. 7x9( U)
x2
PD01
5125
3X8(U)
x4
002A
5128
3x20( U)
x2
001A
5128
3x18( M)
x2
L001
L003
5128
3X8(M)
x3
PS01
L011
5129
3X8(M)
5110
3X6(M)
L004
L002
5128
3x8( M)
x4
5125
3X8(U)
x2
001Z
PD02
200G
201G
MARK MATERIAL /FIN ISH
(M ) STEEL /C OPPER
(U ) STEEL /BLA CK(U )
SYMBOL STYLE
PARTS NAME
5110
+B.H.M.SCREW
5126
+B . H. TAP T IT E S CREW W/W AS HER
5127
+P. H. TAP TIT E SCREW(B TYP E)
5128
+B. H. TAP TIT E SCREW(B TYP E)
5192
5129
+ B. H. TA P T I TE S CRE W( W/ T. L . WA SH ER)
+P. H. M. SCRE W( MINUT E)
5125
+B. H. TAP TITE SCREW(P TYPE)
5405
T OOTH ED L OC K WAS HE RS
5126
3X8(M )
x4
5126
3X8(M)
001D
PD02
NVERSION
901G
5129
3X8(M)
015Bx3
5405
3( M)
5127
3x8( M)
x2
L072
L071
L073
SILVER ONLY
5126
3X8(K )
x4
5128
3X6(M)
x2
Page 31
NOTE : "nsp" PART IS LISTED FOR REFERENCE ONLY, MARANTZ WILL NOT SUPPLY THESE PARTS.
47
POS.
NO
VERS.
COLOR
PART NO.
(FOR EUR)
DESCRIPTION
PART NO.
(MJI)
001B SILVER 02AK105220 FRONT CHASSIS PL(L) SIL 02AK105220
002B SILVER 02AK105230 FRONT CHASSIS PL(R) SIL 02AK105230
003B BLACK 02AK248020 FRONT PANEL AL DV8400 BL 02AK248020
003B GOLD 02AK248120 FRONT PANEL AL DV8400 GL 02AK248120
003B SILVER 02AK248220 FRONT PANEL AL DV8400 SIL 02AK248220
005B SILVER 02AK270210 BUTTON FUNCTION SIL 02AK270210
006B SILVER 02AK270220 BUTTON SUB FUNK SIL 02AK270220
008B SILVER 02AK270130 BUTTON FL OFF SIL 02AK270130
009B SILVER 24AW251020 BADGE MARANTZ SILVER 24AW251020
012B SILVER 02AK251030 BADGE SACD SILVER 02AK251030
045B SILVER 02AK270240 BUTTON POWER SILVER 02AK270240
050B SILVER 02AK063210 ESCUTCHEON TRAY FRONT SIL 02AK063210
051B SILVER 392K063260 ESCUTCHEON SACD SIL 392K063260
009G SILVER 383K057020 LEG FRONT SIL 383K057020
010G SILVER 383K057120 LEG REAR SIL 383K057120
L071 FC90400010 FERRITE CORE SSC-40-12
FOR WD04
FC90400010
L072 FC90400010 FERRITE CORE SSC-40-12
FOR WD03
FC90400010
L073 FC90280010 FERRITE CORE HF70SH28X2X10
FOR WD05
FC90280010
WD05 nsp JUMPER LEAD
PD01(J711)-PD02(JH01)
YU16150520
WE01 nsp JUMPER LEAD
PM01(J851)-PD02(J802)
YU12140520
PACKING
001T /A/S nsp USER GUIDE DV8400 (A C L S) 11AK851350
001T /F nsp USER GUIDE DV8400 (F) 11AK851110
001T
/N
/N 11AK851310 USER GUIDE DV8400 (N) 11AK851310
001T /U nsp USER GUIDE DV8400 (U) 11AK851250
005T /N 11AK851320 USER GUIDE DV8400 (N) 11AK851320
NOT STANDARD
SPARE PARTS
001D SILVER nsp LID TOP COVER SILVER 349K257220
001S nsp PACKING CASE DV8400 11AK801010
002S nsp CUSHION DV8300 02AK809010
Page 32
NOTE : "nsp" PART IS LISTED FOR REFERENCE ONLY, MARANTZ WILL NOT SUPPLY THESE PARTS.
48
POS.
NO
VERS.
COLOR
PART NO.
(FOR EUR)
DESCRIPTION
PART NO.
(MJI)
POS.
NO
VERS.
COLOR
PART NO.
(FOR EUR)
DESCRIPTION
PART NO.
(MJI)
PD01-Super Audio CD
CIRCUIT BOARD
PD01-CAPACITORS
C719 nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
C720 nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
Q715 HC10440050 IC TC7SH08FU 211931682 HC10440050
PD01-RESISTORS
R779
nsp CHIP RES. 47Ω ±5% 1/16W NN05470610
R787
PD01-SEMICONDUCTOR
Q716 HC006105K0 IC TC74VHC541FT HC006105K0
PD02-DVI
CIRCUIT BOARD
PD02-CAPACITORS
C801 /N EY10700620 TANTL.CHIP 100µF 6.3V EY10700620
C802 /N EY10700620 TANTL.CHIP 100µF 6.3V EY10700620
C803 /N EY10700620 TANTL.CHIP 100µF 6.3V EY10700620
C804 /N EY47701020 TANTL.CHIP 470µF 10V EY47701020
C805 /N nsp CER. CHIP 0.01µF DK96103300
C806 /N nsp CER. CHIP 0.01µF DK96103300
C950 /N nsp CER. CHIP 330pF DK96331300
C951 /N nsp CER. CHIP 330pF DK96331300
CH01 EY10601070 TANTL.CHIP 10µF 10V EY10601070
CH02 EY10601070 TANTL.CHIP 10µF 10V EY10601070
CH03 EY47600630 TANTL.CHIP 47µF 6.3V EY47600630
CH04 EY10600670 TANTL.CHIP 10µF 6.3V SVSP0J EY10600670
CH05 EY10600670 TANTL.CHIP 10µF 6.3V SVSP0J EY10600670
CH06 EY47600630 TANTL.CHIP 47µF 6.3V EY47600630
CH07 EY47600630 TANTL.CHIP 47µF 6.3V EY47600630
CH21 EY22600630 TANTL.CHIP 22µF 6.3V EY22600630
CH22
nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
CH41
CH42 nsp CER. CHIP 2200pF CG 50V DK96222300
CH43 nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
CH45 nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
CH46 nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
CH47 nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
CH71 nsp
CH72 nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
CH75 nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
CH76 nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
CI61 nsp CER. CHIP 0.01µF DK96103300
CI62 nsp CER. CHIP 0.01µF DK96103300
CI65 nsp CER. CHIP 100pF DD95101300
CI66 nsp CER. CHIP 0.01µF DK96103300
CI67 nsp CER. CHIP 0.01µF DK96103300
CI68 EY10601070 TANTL.CHIP 10/10V EY10601070
CI69 nsp CER. CHIP 0.01µF ±10% 50V DK96103300
CI70 nsp CER. CHIP 0.01µF DK96103300
CI81 EY47502010 TANTL.CHIP 4.7µF 20V EY47502010
CI82 nsp CER. CHIP 0.01µF DK96103300
CI83 EY47502010 TANTL.CHIP 4.7µF 20V EY47502010
CI84 nsp CER. CHIP 0.01µF DK96103300
CI85 EY47502010 TANTL.CHIP 4.7µF 20V EY47502010
CI86 nsp CER. CHIP 0.01µF DK96103300
CI87 EY47502010 TANTL.CHIP 4.7µF 20V EY47502010
CI88 nsp CER. CHIP 0.01µF DK96103300
CI91 nsp CER. CHIP 0.01µF DK96103300
CI92 EY47502010 TANTL.CHIP 4.7µF 20V EY47502010
CT03 EY10601070 TANTL.CHIP 10µF 10V EY10601070
CT04
nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
CT07
CT08 nsp CER. CHIP 1000pF ±10 % B 50V DK96102300
CT09 nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
CT10 EY10601070 TANTL.CHIP 10µF 10V EY10601070
CT11 nsp CER. CHIP 1000pF ±10 % B 50V DK96102300
CT12 nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
CT13 EY10601070 TANTL.CHIP 10µF 10V EY10601070
CT14 nsp CER. CHIP 1000pF ±10 % B 50V DK96102300
CT15 nsp CER. CHIP 1000pF ±10 % B 50V DK96102300
CT16 nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
CT17 EY10601070 TANTL.CHIP 10µF 10V EY10601070
CT18 nsp CER. CHIP 0.1µF GRM39F104Z16 DK98104200
CT19 EY10601070 TANTL.CHIP 10µF 10V EY10601070
CT20 nsp
PD02-RESISTORS
R801 /N nsp CHIP RES. 39
Ω
±5% 1/16W NN05390610
R802 /N nsp CHIP RES. 33
Ω
±5% 1/16W NN05330610
R803 /N nsp CHIP RES. 39
Ω
±5% 1/16W NN05390610
R804 /N nsp CHIP RES. 33
Ω
±5% 1/16W NN05330610
R805 /N nsp CHIP RES. 39
Ω
±5% 1/16W NN05390610
R806 /N nsp CHIP RES. 33
Ω
±5% 1/16W NN05330610
R807 /N nsp CHIP RES. 39
Ω
±5% 1/16W NN05390610
R808 /N nsp CHIP RES. 33
Ω
±5% 1/16W NN05330610
R950 /N nsp CHIP RES. 100
Ω
±5% 1/16W NN05101610
R951 /N nsp CHIP RES. 100
Ω
±5% 1/16W NN05101610
RH01
nsp CHIP RES. 0Ω ±5% 1/16W NN05000610
RH09
RH21 nsp CHIP RES. 22
Ω
±5% 1/16W NN05220610
RH22 nsp CHIP RES. 22
Ω
±5% 1/16W NN05220610
RH23 nsp CHIP RES. 22
Ω
±5% 1/16W NN05220610
RH24 BW05100010 RES.COMPO. CN1J8TD10J BW05100010
RH25 BW05100010 RES.COMPO. CN1J8TD10J BW05100010
RH26 BW05100010 RES.COMPO. CN1J8TD10J BW05100010
RH27 nsp CHIP RES. 22
Ω
±5% 1/16W NN05220610
RH28 nsp CHIP RES. 4.7k
Ω
±5% 1/16W NN05472610
RH29 nsp CHIP RES. 10k
Ω
±5% 1/16W NN05103610
RH30 nsp CHIP RES. 0
Ω
±5% 1/16W NN05000610
RH31 nsp CHIP RES. 100
Ω
±5% 1/16W NN05101610
RH71 nsp CHIP RES. 100
Ω
±5% 1/16W NN05101610
RH72 nsp CHIP RES. 2.2k
Ω
±5% 1/16W NN05222610
RH73 nsp CHIP RES. 2.2k
Ω
±5% 1/16W NN05222610
RH75 nsp CHIP RES. 10k
Ω
±5% 1/16W NN05103610
RH76 nsp CHIP RES. 10k
Ω
±5% 1/16W NN05103610
RH77 nsp CHIP RES. 10k
Ω
±5% 1/16W NN05103610
RH78 nsp CHIP RES. 1M
Ω
±5% 1/16W NN05105610
RH79 nsp CHIP RES. 0
Ω
±5% 1/16W NN05000610
RH80 nsp CHIP RES. 2.2k
Ω
±5% 1/16W NN05222610
RH81 nsp CHIP RES. 2.2k
Ω
±5% 1/16W NN05222610
RH82 nsp CHIP RES. 4.7k
Ω
±5% 1/16W NN05472610
RI51 nsp CHIP RES. 0
Ω
±5% 1/16W NN05000610
RI52 nsp CHIP RES. 0
Ω
±5% 1/16W NN05000610
RI53 nsp CHIP RES. 0
Ω
±5% 1/16W NN05000610
RI54 nsp CHIP RES. 0
Ω
±5% 1/16W NN05000610
RI55 nsp CHIP RES. 0
Ω
±5% 1/16W NN05000610
RI61 nsp CHIP RES. 4.7k
Ω
±5% 1/16W NN05472610
RI62 nsp CHIP RES. 10k
Ω
±5% 1/16W NN05103610
RI63 nsp CHIP RES. 10k
Ω
±5% 1/16W NN05103610
RI64 nsp CHIP RES. 4.7k
Ω
±5% 1/16W NN05472610
RI65 nsp CHIP RES. 4.7k
Ω
±5% 1/16W NN05472610
RI66 nsp CHIP RES. 4.7k
Ω
±5% 1/16W NN05472610
RI67 nsp CHIP RES. 4.7k
Ω
±5% 1/16W NN05472610
CER. CHIP 2200pF CG 50V DK96222300
CER. CHIP 2200pF CG 50V DK96222300
Page 33
NOTE : "nsp" PART IS LISTED FOR REFERENCE ONLY, MARANTZ WILL NOT SUPPLY THESE PARTS.
49
POS.
NO
VERS.
COLOR
PART NO.
(FOR EUR)
DESCRIPTION
PART NO.
(MJI)
POS.
NO
VERS.
COLOR
PART NO.
(FOR EUR)
DESCRIPTION
PART NO.
(MJI)
RI68 nsp CHIP RES. 100Ω ±5% 1/16W NN05101610
RI81 nsp CHIP RES. 22k
Ω
±5% 1/16W NN05223610
RI82 nsp CHIP RES. 22k
Ω
±5% 1/16W NN05223610
RI91
nsp CHIP RES. 0Ω ±5% 1/16W NN05000610
RI94
RI95 nsp CHIP RES. 1M
Ω
±5% 1/16W NN05105610
RI96 nsp CHIP RES. 0
Ω
±5% 1/16W NN05000610
RT01 nsp CHIP RES. 10k
Ω
±5% 1/16W NN05103610
RT02 nsp CHIP RES. 10k
Ω
±5% 1/16W NN05103610
RT04 nsp CHIP RES. 4.7k
Ω
±5% 1/16W NN05472610
RT07 nsp CHIP RES. 1k
Ω
±5% 1/16W NN05102610
RT08 nsp CHIP RES. 68k
Ω
±5% 1/16W NN05683610
RT11 nsp CHIP RES. 470
Ω
±5% 1/16W NN05471610
RT16 nsp CHIP RES. 4.7k
Ω
±5% 1/16W NN05472610
RT17 nsp CHIP RES. 4.7k
Ω
±5% 1/16W NN05472610
RT18 nsp CHIP RES. 2.2k
Ω
±5% 1/16W NN05222610
RT19 nsp CHIP RES. 0
Ω
±5% 1/16W NN05000610
RT20 nsp CHIP RES. 0
Ω
±5% 1/16W NN05000610
PD02-SEMICONDUCTORS
D801
/N HZ30034050 CHIP DIODE 01ZA8.2 HZ30034050
D804
DT01 HI10104210 L.E.D. CHIP SML-310MT GREEN HI10104210
DT02 HZ20039050 CHIP DIODE 1SS378 HZ20039050
DT03 HZ20039050 CHIP DIODE 1SS378 HZ20039050
QH01 HC98J18210 IC BA18BC0FP-E2 1.8V REG. HC98J18210
QH21 HC10231990 IC SII504 HC10231990
QH22 HC10001910 IC K4S643232E-TC60 HC10001910
QH71 HS11AKX000 ONE TIME PROM
MC504-F2(PIC16C63A-20/SO)
HS11AKX000
QI61
HS11AKH00F
ONE TIME PROM 1 1AK
SUB UCOM VER.1.00
HS11AKH00F
QI62 HC10224210 IC BD4742G HC10224210
QI81 HC10292060 IC UPD4721 HC10292060
QT02 HX300012A0 CHIP TRS. 2SC4116 HX300012A0
QT03 HC10230990 IC SII170B HC10230990
QT04 HX300012A0 CHIP TRS. 2SC4116 HX300012A0
QT05 HF70013000 F.E.T. BSN20 HF70013000
QT06 HF70013000 F.E.T. BSN20 HF70013000
PD02-MISCELLANEOUS
JI91 YP11000220 PLUG DZ101A1-B2 YP11000220
JT01 YT02240010 TERMINAL QH11121-DPO YT02240010
JT02 nsp TERMINAL M1698-A NEJI YL01010320
L801
/N nsp CHIP RES. 0Ω ±5% 1/16W NN05000610
L806
L950 /N nsp CHIP RES. 0
Ω
±5% 1/16W NN05000610
L951 /N nsp CHIP RES. 0
Ω
±5% 1/16W NN05000610
LH01
LU12222010 CHIP INDUCTANCE LU12222010
LH05
NL322522-2R2M
LH21 FN31010060 BLM11P600S FN31010060
LI61 FN31010060 BLM11P600S FN31010060
LI81 FN31010060 BLM11P600S FN31010060
LI91
LI93 FN31000020 BLM11B252SD FN31000020
LI94
LT01
FC90020110 FERRITE CORE BLM11B601S FC90020110
LT04
SI61 SS02021680 SLIDE SWITCH SSSF021300 SS02021680
SI62 SS01021140 SLIDE SWITCH SSAA110300 SS01021140
XH71 FQ02005070 CERAMIC VIB. CST
CE20M0V53-R0
FQ02005070
XI62 FQ01605110 CERAMIC VIB. CST
CE16M0V51-R0
FQ01605110
PF01-FRONT
CIRCUIT BOARD
PF01-CAPACITORS
CF51
nsp CER. CHIP 100pF ±5 % CG 50V DD95101300
CF55
QF01 *HS11AKT0R IC TMP87PM74F ONE TIME PROM
BRANK
*HS11AKT0R
QF04 HC10224210 IC BD4742G HC10224210
PF01-RESISTORS
RF61
nsp CHIP RES. 22Ω ±5% 1/16W NN05220610
RF65
RF66 nsp CHIP RES. 4.7 k
Ω
±5% 1/16W NN05472610
PM01-AV
CIRCUIT BOARD
PM01-CAPACITORS
C859 /N nsp ELECT. 10µF M 63V RA- 2 OA10606320
C868 /N nsp ELECT. 10µF M 63V RA- 2 OA10606320
C877 /N nsp ELECT. 10µF M 63V RA- 2 OA10606320
C880 /N nsp ELECT. 10µF M 63V RA- 2 OA10606320
C881 /N nsp ELECT. 10µF M 63V RA- 2 OA10606320
C882 /N nsp ELECT. 10µF M 63V RA- 2 OA10606320
C884 /N nsp ELECT. 10µF M 63V RA- 2 OA10606320
CB08 nsp ELECT. 10µF M 63V RA- 2 OA10606320
CB09 nsp ELECT. 4 70µF M 10V RA-2 OA47701020
CB11 /A/F/S nsp ELECT. 470µF M 10V RA-2 OA47701020
CC08 nsp ELECT. 10µF M 63V RA-2 OA10606320
CC09 nsp ELECT. 470µF M 10V RA-2 OA47701020
CC11 /A/F/S nsp ELECT. 4 70µF M 10V RA-2 OA47701020
CD03 nsp ELECT. 1µF M 100V RA-2 OA10510020
CD05 nsp ELECT. 1µF M 100V RA-2 OA10510020
CD23 nsp ELECT. 1µF M 100V RA-2 OA10510020
CD25 nsp ELECT. 1µF M 100V RA-2 OA10510020
CD43 nsp ELECT. 1µF M 100V RA-2 OA10510020
CD45 nsp ELECT. 1µF M 100V RA-2 OA10510020
CI05 nsp ELECT. 1µF M 100V RA- 2 OA10510020
CI20 nsp ELECT. 47µF M 25V RA- 2 OA47602520
CV03 nsp ELECT. 1µF M 100V RA-2 OA10510020
CV32 nsp ELECT. 10µF M 63V RA- 2 OA10606320
CV34 nsp ELECT. 10µF M 63V RA- 2 OA10606320
CY09 nsp ELECT. 10µF M 63V RA- 2 OA10606320
PS01-POWER SUPPLY
CIRCUIT BOARD
PC01-CAPACITORS
CP13 nsp ELECT. 1µF M 100V RA-2 OA10510020
CP52 nsp ELECT. 47µF M 25V RA- 2 OA47602520
CP53 nsp ELECT. 47µF M 25V RA- 2 OA47602520
CP54 nsp ELECT. 220µF M 25V RA-2 OA22702520
CP55 nsp ELECT. 220µF M 25V RA-2 OA22702520
CP59 nsp ELECT. 10µF M 63V RA- 2 OA10606320
CP61 nsp ELECT. 47µF M 25V RA- 2 OA47602520
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