service use this service manual with referring to the user guide ... controls and chassis bottom....
TRANSCRIPT
Super Audio CD Player
SA826001AK855010 MIT First Issue 2002.04
TABLE OF CONTENTS
SECTION PAGE
1. TECHNICAL SPECIFICATIONS ................................................................................................... 1
2. SERVICE MODE........................................................................................................................... 2
3. TAKING THE DISC OUT OF EMERGENCY................................................................................. 3
4. CAUTION Optical pick up and Servo Board.................................................................................. 4
5. BLOCK DIAGRAM ........................................................................................................................ 5
6. SCHEMATIC DIAGRAM................................................................................................................ 7
7. PARTS LOCATION...................................................................................................................... 20
8. MICROPROCESSOR AND IC DATA........................................................................................... 27
9. EXPLODED VIEW AND PARTS LIST ......................................................................................... 45
10. LOADING MECHANISM ASS'Y.................................................................................................. 48
11. ELECTRICAL PARTS LIST ......................................................................................................... 49
SA8260 /F1N/S1G/U1GF1B/S1B/U1B
R
SA
8260
Printed in Japan
Please use this service manual with referring to the user guide ( D.F.U. ) without fail.
ServiceManual
Printed on 100% Recycled Paper
SUPER AUDIO CD PLAYER SA8260
/OPEN/CLOSE
LEVEL
PLAY
PHONES
PAUSESTOP
/
SOUND MODE
DISPLAY OFF
TIME
CDMULTI
TEXT DISPLAY
STEREO SACD
ON/STANDBY
STANDBY
+-
POWER
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. 020326MIT
SUPERSCOPE TECHNOLOGIES, INC.
USAMARANTZ AMERICA, INC1100 MAPLEWOOD DRIVEITASCA, IL. 60143USAPHONE : 630 - 741 - 0300FAX : 630 - 741 - 0301
JAPAN Technical MARANTZ JAPAN, INC.35- 1, 7- CHOME, SAGAMIONOSAGAMIHARA - SHI, KANAGAWAJAPAN 228-8505PHONE : +81 42 748 1013FAX : +81 42 741 9190
EUROPE / TRADING MARANTZ EUROPE B.V.P. O. BOX 8744, BUILDING SILVERPOINTBEEMDSTRAAT 11, 5653 MA EINDHOVENTHE NETHERLANDSPHONE : +31 - 40 - 2507844FAX : +31 - 40 - 2507860
TECHNICAL AUDIO GROUP PTY, LTD558 DARLING STREET, BALMAIN, NSW 2041,AUSTRALIAPHONE : 61 - 2 - 9810 - 5300FAX : 61 - 2 - 9810 - 5355
AUSTRALIAQualiFi Pty Ltd,24 LIONEL ROAD, MT. WAVERLEY VIC 3149AUSTRALIAPHONE : +61 - (0)3 - 9543 - 1522FAX : +61 - (0)3 - 9543 - 3677
NEW ZEALANDWILDASH AUDIO SYSTEMS NZ14 MALVERN ROAD MT ALBERTAUCKLAND NEW ZEALANDPHONE : +64 - 9 - 8451958FAX : +64 - 9 - 8463554
THAILANDMRZ STANDARD CO., LTD746 - 754 MAHACHAI ROAD.,WANGBURAPAPIROM, PHRANAKORN, BANGKOK, 10200 THAILANDPHONE : +66 - 2 - 222 9181FAX : +66 - 2 - 224 6795
TAIWANPAI- YUING CO., LTD.6 TH FL NO, 148 SUNG KIANG ROAD, TAIPEI, 10429, TAIWAN R.O.C.PHONE : +886 - 2 - 25221304FAX : +886 - 2 - 25630415
MALAYSIAWO KEE HONG ELECTRONICS SDN. BHD.SUITE 8.1, LEVEL 8, MENARA GENESIS,NO. 33, JALAN SULTAN ISMAIL,50250 KUALA LUMPUR, MALAYSIAPHONE : +60 3 - 21457677FAX : +60 3 - 21458180
AMERICAS
MARANTZ PROFESSIONAL PRODUCTS2640 WHITE OAK CIRCLE, SUITE AAURORA, ILLINOIS 60504 USAPHONE : 630 - 820 - 4800FAX : 630 - 820 - 8103
AUSTRALIA
KOREAMK ENTERPRISES LTD.ROOM 604/605, ELECTRO-OFFICETEL, 16-58, 3GA, HANGANG-RO, YONGSAN-KU, SEOULKOREAPHONE : +822 - 3232 - 155FAX : +822 - 3232 - 154
SINGAPOREWO KEE HONG DISTRIBUTION PTE LTD130 JOO SENG ROAD#03-02 OLIVINE BUILDING SINGAPORE 368357PHONE : +65 6858 5535 / +65 6381 8621FAX : +65 6858 6078
HONG KONGJolly ProAudio Broadcast Engineering Ltd.UNIT 2, 10F, WAH HUNG CENTRE,41 HUNG TO ROAD, KWUN TONG, KLN.,HONG KONGPHONE : 852 - 21913660FAX : 852 - 21913990
CANADALENBROOK INDUSTRIES LIMITED633 GRANITE COURT, PICKERING, ONTARIO L1W 3K1CANADAPHONE : 905 - 831 - 6333FAX : 905 - 831 - 6936
1
Super Audio CD CD
Audio Characteristics
Analog output
Channels 6channels (Max.) 2channels
Frequency range 2Hz — 100kHz 2Hz — 20kHz
Frequency characteristics 2Hz — 50kHz (-3dB) 2Hz — 20kHz
Dynamic range 113dB 100dB
THD (1kHz) 0.0015% 0.0020%
wow & fl utter Precision of quartz Precision of quartz
Output level 2.2V 2.2V
Digital output
output level (cinch JACK) — 0.5Vp-p (75Ω)
output level (optical) — -19dBm
Headphone output level 50mW / 32Ω (max, Vol.) 50mW / 32Ω (max, Vol.)
Optical Readout System
Laser AlGaAs AlGaAs
Wave length 650nm 780nm
Signal format 1-bit DSD 16-bit linear PCM
Sampling frequency 2.8224MHz 44.1kHz
Power Supply
Input Voltage, Frequency (/F).................................................................... AC 100V 50/60Hz
(/S)......................................................................... AC 230V 50Hz
(/U)......................................................................... AC 120V 60Hz
Power Consumption....................................................................................................... 28W
Power Consumption (Stand-by) .................................................................................. <0.8W
Cabinet, etc.
Dimensions (Width × Height × Depth) ..417-5/16 × 4-7/8 × 12-1/16 inches (440 × 124 × 307mm)
Net weight ........................................................................................................17 lbs (7.7kg)
Operating temperatures .................................................................................. +5°C ~ +35°C
Operating humidity............................................................................. 5 ~ 90% (without dew)
Accessories
• Remote control unit (RC8260SA) ......................................................................................1
Dimensions (Width × Height × Depth)........ 1-15/16 × 7/8 × 6 inches (48.5 × 21.5 × 152.5mm)
Net weight (without Batteries) .......................................................................0.13 lbs (60g)
• AA (R6) Batteries...............................................................................................................2
• AC Power cord...................................................................................................................1
• Audio cable ...............................................................................................................3 pairs
• Remote connection Cable ................................................................................................1
• User’s Guide ......................................................................................................................1
• Warranty Card.............................................................................................................1 pair
1. TECHNICAL SPECIFICATIONS
2
2. SERVICE MODE
While pressing <OPEN/CLOSE>and<NEXT>plug in the Mains cord.
"SA8260" is displayed
Press< >
Version of Backend(QF01) u-COM is displayed
"Ver : X.XX" is displayed
Press< >
Version of Frontend(Q125) u-COM is displayed
"DrvVer : XX.XX" is displayed
Press< >
All parts of LCD is turned on
Press< >
Each Segment is displayed one by one
Press< >
Check of key
When key is depressed,key name is displayed
Remove Mains cord from plug
3
3. TAKING THE DISC OUT OF EMERGENCY
1. Remove 6 screws on the top cover and remove the top cover.
2. Remove 4 screws pointed with the arrows.
3. Disconnect all the wires at the right and rear side.
4. Remove the Mecha. component.
5. Turn the gear to the direction shown with your fi nger and disc tray will opened.
4
4. CAUTION Optical pick up and Servo Board
When removing the fl at wire between Optical pick up and Servo Board (PV16),
Solder the four lands pointed by arrows to short the circuit.
Otherwise the LASER DIODE may be damaged by static electricity.
5 6
RNDMPROG A – B RPT 1
TEXT 1 2
TRK TTL TIME
3 4 5 6 7 8 9 10 1112 1314 1516 1718 1920
5. BLOCK DIAGRAM
87
6. SCHEMATIC DIAGRAM
PP16 MAIN
25P
Y,GR
Y.GR.
7P(EH)
2P
25P
25P
RC-5IN OUT
21P_1MM
Y,GR
Y,GR
Y,GR
Y.GR
Y,GR
Y.GR
TO SERVO
+12V
TO SERVO
+7.6V
+7.6VTO FRONT
TO DAC
ETC
-26V
3.3VTO DAC
TO AUDIO
Y,G
R
TO AUDIO
WF04
WF08
TO
SE
RV
O P
CB
(PV
16)
DS
D D
AT
A IN
AN
D P
OW
ER
OU
T
WH02
BRN
RED
ORANGE
YERROW
GREEN
BLUE
PURPLE
GREEN
BLUE
AC12.5V
AC8V
AC9V
AC3V
AC12.5V
FOR /F/U/S
PH26 POWER SW
STANDARD
CUSTOM
ACXXX
ACXXX
FOR DAC(BUS LINE)
POWER AND MUTING/FILTER-SW
+8V
+5V
+5.6V
+5V
LLM
11V
6.2V
6.2V
-15.5V
TO DAC(5.5/3.5V)
+15.5V
TO
4-C
HA
NN
EL
PC
B
LPS
WF05
DS
D D
AT
A IN
AN
D P
OW
ER
OU
TT
O S
ER
VO
PC
B(P
V16
)
TO SERVO+5V
WF06
DA
C IN
TE
RF
AC
ET
O 4
-CH
AN
NE
L P
CB
TO
FR
ON
T P
CB
(PY
16)
WF07
CO
MM
AN
D IN
TE
RF
AC
E
INT
EXT
DIG OUT
RC-5 IN/OUT
RC5F
9
9
RC5F
RC-5 INT/EXT SW
H:MUTE ONL:MUTE OFF( )
LMU
LFB
AC9V
LTD
LRA
AR
AA
RA
AR
A
AR
A
+5A
+5A
GND
GND
KEY0
KEY1
FDAT
FCLK
FCEN
FRES
DISPLED
STBLED
SRLED
BK12V
SALED
CDLED
STBSW
BK5V
RC5S
GND
DIGO
MGN
MGN
P8M
P8M
COM
OUTIN
COM
OUTIN
COM
OUTIN
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
-12V
+12V
G
G
+12V
-12V
DSAC
DSALF
DALR
MUT2
M43
RST
M3
M2
DSARS
DSALS
M42
M41
GND
+5B
M0
DACL
GND
SYCL
GND
DARD
DAPC
MUT1
MODE1
LPFSW
+5B 3VDA
M43
RST
M3
M2
M0
GND
GND
GND
DALR
DSALF
DSAC
DSARS
M42
DSALS
DACL
GND
SYCL
GND
GND
VREF
5.6VA
5.6VA
GND
RST
NC
C
B
E
GND
STBSW
CDLED
SALED
SRLED
STBLED
DISPLED
FRES
FCEN
FCLK
FDAT
KEY1
KEY0
BK5V
RC5F
+5F
+5F
GND
H1
-VFT
H2
COM
OUTIN
C
B
E
C
B
E
C
B
E
C
B
E
G
D
S
G
D
S
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
4700
16V
2200
16V
6800
16V
3300
6.3V
5V
4700
16V
11E
QS
10
3300
6.3V
220
16V
1k
4.7k
1.5k
3.9k
1016
V
100
10V
4.7k
27V
4.7V
100
35V
4747
4716
V
1k
220
16V
3300
25V
100
1016
V
3.3k
2.7k
470
16V
1016
V
3.3k
3.3k
3.3k
2.7k
470
16V
100
3300
25V
0.1
22k
0.02
2
0.02
2
0.1
0.1
0.1
T800mA L 250V
T800mA L 250V
T800mAL 250V
T1.25A L 250V
0.1100
4.7k4.7k
0.1
10/1
6V
100
75
0.1
2200
p
0.1
33
0.1
100
25V
470p
0.1
10k
22
2.2k
4.7k
V
V
47p
220
50V
220 50V
T800mA L 250V
2200
16V
2.2
50V
33k
47k
4.7k
4.7k
100k
4.7k
4.7k
100
16V
100k
1k
NC
NC
0
JF01
D822
D821
C82
2
Q821
C82
3
D803
D802
D804
D801
C80
1
C80
2
Q801
D807
D805
D808
D806 C80
5
Q802D
809
C80
6C
809
QD23
RD
23
RD
22
QD21
RD
24R
D25
CD
21
CD
22
RY56
QY61
DY
65
DY
11C
Y63
RY
60
RY
59
CD
25
RD
27
CD
26
D854
D853 C85
1
R85
1
Q852
D85
8
Q853
D85
6
C85
5
R85
8
R85
3
C85
7
D85
7
C85
6
R85
6
Q85
7
R85
7
R85
4R
855
C85
8
Q856
D85
9
R85
2
C85
2
D852
D851
QD22
J803
S351
JH04
C35
1R
351
CY
60
CY
61
JL01
JF02
L801
C80
3
L803
C80
8
L802
C80
7
F852
F822
F821
F801
JF04
LT02
JT03
CT
06
RT01
QT01
JF51
SF51
RF53RF52
QF51
DF
51
CF
53
CF
54
RF57
LT01
RT03
CT
04
CT
03
CT01
RT
02
CT
10
CT
05
CF
52
CF
51
RF
54
RF
51
RF
55
RF
56
JF03
Q803
QD24
QD27
QD26
QD25
Q851
Q855
CT
02
QF52
JL02
CY
52
CY51 DY52
DY
51
WH02
J801
F851
L001
DN02
DN01
DN05
DN06
CN
01
CN
02
RN
01
RN
02
RN
03
RN
04
QN04
QN02
QN01
QN03
DN07
DN11
DN12QN12
RN
05
RN
12
RN
11
QN11
CN
06
DN04
DN03
RN
13
RN
06
R35
2
QN05
DN
09
DN
08
RN
07
RN08
JT02
QT01
1
2
3
4
5
6
7
8
9
10
11
12
13
25
14
15
16
17
18
19
20
21
22
23
24
2
13
2
13
2
13
1
2
3
12
3
1
2
3
2
3
1
1
2
3
1
2
3
2
3
1
12
3
1
2
3
4
5
6
7
32
1
65
4
2
1
1
2
3
4
5
6
7
8
9
10
11
12
13
25
14
15
16
17
18
19
20
21
22
23
24
1 2
1 2
1 2 1
2
3
4
5
6
7
8
9
10
11
12
13
25
14
15
16
17
18
19
20
21
22
23
24
12
3
1 2 3 4 5 6 7
14 8910111213
1
2
4
3
65
4
32
1
1
2
3
4
51
2
3
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
2
13
1
2
3
1
2
3
1
2
3
1
2
3
1
3
2
1
3
2
1
2
3
1
2
3
4
5
6
7
8
9
10
1
2
3
4
5
6
7
8
9
10
2
4
20
19
18
16
15
14
13
12
11
17
1
2
3
1
2
31
2
3
12
3
1
2
3
12
3
1
2
3
1
3
2
P8M
+5A
ID3
ID3
NJM7808F
M-GND M-GND
GND
11EQS10
11EQS10
11EQS10
11EQS10
GND GND
BA05T
GND
11EQS10
11EQS10GND
11EQS10
11EQS10
GND GND
BA05T
GND
GND
GND
2SA970
DTC114TS
GND GND GND GND
VREF
GND
2SA1048
GND
GND
11EQS10
11EQS10
GND
2SD1415A
P8M
+5V
D+
5F5.
6VA
3VD
A
2SC2240
HZ
6L-3
GNDGND GND
GND
+12
V
HZ
6L-3
GNDGND GND
2SA
970
GND
-12V
2SB1020A
GND
11EQS10
11EQS10
5AC9
DTC114TS
GND
GND
-12V
+12
V
1AC8
2AC8
8AC12
10AC12
8AC12
H1
H2
5AC9
3AC9
TMUT2
GND GND
-VFT
GND
1AC8
3AC9
H2
H1
2AC8
EARTH
H1
H2
GND
GND
+5B
GND
+5A
GND
GND
+5B
GND
3VD
A5.
6VA
GNDGND74HC04
2SA1048
GNDGND
GND GND
GND
GND
+5VD
GND
GND
GNDGNDGNDGND GND
-VFT
+5F
VREF
H2
H1
BK5V
VREF
BK5V
MODE1
NJM78M05F
2SC2878
MODE1
2SC2458
2SC2458
2SC2458
2SK246
2SK246
2SC2458
M2
M41
RS
T
M3
DA
PC
M0
DA
RD
DA
LR
SY
CL
DA
CL
EARTHGND
ID3
ID3
3AC9
5AC9M-GND
M-GND
10AC12
M-GND
5AC9ID3
ID3
ID3
4.7V
2SA1048
2SC2458
DTC114TS
DTC114TS
2SA1048
DTC114TSID3
ID33AC9
MUT1
MUT2
TMUT1
TMUT2
GND
GND
GND GND
GNDGND
GND
GND
MUT1
MUT2
BK5V
+5VD2
GND
NC
NC
NC
GND
M-GND
M-GND
M-GND
+5VD2
COAX1
GND
74HC04
2AC8
-VFT
H2 H2
H1 H1
DA
RD
DA
PC
DA
LR
DA
CL
SY
CL
M0
M2
M3
RS
T
DAPC
SYCL
DACL
M0
M41
M42
DSALS
DSARS
M2
M3
RST
M43
MUT2
DALR
DSALF
DSAC
MODE1
DIGO
CDLED
SALED
SRLED
STBLED
FRES
FCEN
FCLK
FDAT
KEY1
KEY0
M42
RST
VREF
SYCL
DSALS
DSARS
DSAC
DSALF
M0
M3
RST
M43
KEY0
KEY1
FDAT
FCLK
FCEN
FRES
STBLED
SRLED
SALED
CDLED
BK5V
RC5S
DIGO
MODE1
DACL
M41
3AC9
1AC8
8AC12
10AC12
H2
-VFT
H1
BK5V
DISPLED
RC5S
BK5V
DISPLED
M2
DALR
VREF
VREF
LPFSW
DARD
STBSW
5AC9
STBSW
10AC12
3AC9
5AC9
8AC12
H1
H2
5AC9
3AC9
MUT1
MUT2
TMUT1
TMUT2
MUT1
TMUT2
1AC8
2AC8
5AC9
3AC9
LPFSW
2SEC
POWER ON1.2V
0
MUTING ONAT NO MUTE
0
5V
0
5V
69
W001
L003
WH
T
RE
D
INPUTA
OUTPUTY
H L
L H
1
2
3
4
5
6
7
14
13
12
11
10
9
8
1A1Y2A2Y3A3Y
GND
VCC6A6Y5A5Y4A4Y
9 10
GND GND
5.6V
A
GNDGND
GNDGND
VREF
GND 2SC2240
2SA970
2SC2240
2SA970
2SK170
GND
GND
GND
GND
3VD
A
2SK170
2SC2240
2SA970 2SA970
2SC2240GND
2SC2240 2SC2240
2SC2240
2SA970
2SA970
2SA970
2SC2240
2SA970
GND
+12
V
GND
-12V
GND GND GND GND GND
GND
2SA970
2SC2240
2SC2240
GND
2SC2240
-12V
GND2SC2240
2SA970
2SC2240
2SA970
GND
2SK170
2SC2240
2SA970
GND
2SC2240
2SK170
2SA970
2SA970
2SC2240
2SA970
GND
+12
V
2SA970
2SC2878 2SC2878
GND GND
RST
M41
M3
M0
M2
SY
CL
DA
CL
DA
PC
DA
LR
DA
RD
2SK170
GND
2SK170
2SC2878
2SK170
2SA970
GND GND
2SA970
2SA9702SA970 GND
2SC2240
2SA970
2SC2240
GND
GND
2SC2240
2SC2240
GND
2SA970
2SC2240
2SA970
2SC2240
2SK170
GND
5.6V
A2SA970GND
GND
3VD
A
GND
+12
VX
2SA970
2SC2240
2SC2878
2SC2240
GND
GND
2SA970
GND
-12V
X
GND2SC2240
GND
GND
GND
2SC2240
2SA970
2SC2240 2SA9702SC2240
2SA970
GND
2SA970GND
2SA970
GND
GND
GND
2SA970
2SC2240
GND
2SC2240
GND
GND
GND
2SC2240
2SC2240VREF
TMUT2
+12
VX
-12V
X
GND
3VD
A
2SC2240
2SC2240
GND
2SC2240
2SA970
2SA970
2SA970
2SA970
GND
2SK170
2SA970
-12V
Z
2SC2240
2SA9702SA970
GND
GND
2SC2240
2SA970
GND
TMUT2
GND
GND
2SC2878
2SC2240
+12
VZ
GND
2SA970
GND
GND
2SA970
+12
VZ
2SC2240
2SC2240 2SC2240
GND
GND
2SC2240
GND
2SA970
GND
GND
GND
TMUT2
GND
2SC2240
2SC2240
2SA970
2SC2878
2SK170
2SA970
GND
2SC2240
GND GND
GND
3VD
A
2SC2240
2SA970
VREF
GND
2SC2240
GND
GND
GND2SC2240
-12V
Z
GND
2SA970
5.6V
A
GND
2SK170
2SK170
2SA970
-12V
X+
12V
X
GND
-12V
Z+
12V
Z
+12V
GND
-12V
5.6V
A
TMUT1
2SC2878 2SC2878
2SC2878 2SC2878
2SC2878 2SC2878
GND
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL
2SK369 BL 2SK369 BL
2SK369 BL 2SK369 BL
VREF
GND
GND
GND
GND
GND
GND EARTH
EARTHGND
2SJ74
2SJ74
2SJ74
2SJ74
2SJ74
2SJ74
2SJ74
2SJ74
2SJ74
2SJ74
2SJ74
2SJ74
RST VREF
M4/ADD
M3/AD1
M2/SC1
M0/SDA
DGND
VD
VD
DGND
MCLK
SCLK
CMOD
SDAT
M1
FILT+
FILT-
CMOUT
-LO
+LO
VA
GND
+RD
-RD
GND
MUTEC
C/H
MUTE
C
B
E
C
B
E
C
B
E
C
B
E
G
D
SG
D
S
C
B
E
C
B
E
C
B
E
C
B
EC
B
E
C
B
E
C
B
E
C
B
E
C
B
E
C
B
EC
B
E
C
B
E
G
C
B
E
C
B
E C
B
E
G
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
G
D
S
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
G
D
SG
D
S
C
B
E
G
D
S
C
B
E
C
B
E
C
B
E
C
B
E
C
B
E
G
C
B
E
C
B
E
C
B
E
RST VREF
M4/ADD
M3/AD1
M2/SC1
M0/SDA
DGND
VD
VD
DGND
MCLK
SCLK
CMOD
SDAT
M1
FILT+
FILT-
CMOUT
-LO
+LO
VA
GND
+RD
-RD
GND
MUTEC
C/H
MUTE
C
B
E
C
B
E
C
B
E
C
B
E
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
G
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
E
G
D
S
C
B
E
G
C
B
E
C
B
E
C
B
E
RST VREF
M4/ADD
M3/AD1
M2/SC1
M0/SDA
DGND
VD
VD
DGND
MCLK
SCLK
CMOD
SDAT
M1
FILT+
FILT-
CMOUT
-LO
+LO
VA
GND
+RD
-RD
GND
MUTEC
C/H
MUTE
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
G
C
B
E
C
B
E
C
B
E
C
B
E
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
G
D
S
G
D
S
C
B
E
3VDA
M43
RST
M3
M2
M0
GND
GND
GND
DALR
DSALF
DSAC
DSARS
M42
DSALS
DACL
GND
SYCL
GND
GND
5.6VA
5.5VA
GND
RST
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
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
VREF
DARD
DAPC
DALR
DACL
M0
M2
M3
M41
RSTR
ST
M41
M3
M2
M0
SY
CL
DA
CL
DA
LR
DA
RD
DA
PC
DSALS
TMUT2
DALR
M3
M42
DACL
M0
M2
DSARS
DACL
DSALS
DSARS
DSAC
DSALF
M43
DALR
TMUT2
M3
M2
DSALF
DSAC
DACL
M43
M0
TMUT2
SYCL
SYCL
SYCL
M3
SYCL
VREF
M42
M0
TMUT1
M2
DALR
CS4397
1.2k
1.2k
0.1
0.1
100 10V
100
16V
1.2k
1.2k10 16V
0.1
0.1
1800
p
560
3.9k
1.8k
330p
68
120
120
33k
5.1k
120p
560
47p
100
560
V
3333
2.2k
220
16V
220
16V
1200
p
3.3k
560p
0.1
100
16V
100
33k
560
V
120
120
560
68
270
100
120
47
270
270
680p 33
33
220
16V
220
16V
220 16V
0(JUMPER)
10k
100
4.7k 4.7k
100
NC
270
270
330p
33k
1.8k
100
120
0(JUMPER)
560
220 16V
560
270
2.2k
120
100
33
1003.3k
560
1200
p
68
NC
1800
p
47
V
120
560p
5.1k
3333
100
120p
270
V
120
33k
270
560
560
120
10k
680p
3.9k
270
68
100
270
47p
33
4.7k4.7k
V
V
560p
1.2k
47
330p
120p
100
16V
3.3k
2.2k
V
220
16V
68
120
1204.7k
560
100
120
560
100
3.9k
560
220 16V
1.2k
270
1.2k
330p
0.1
33
100
CS4397
3.9k
33k
1200
p
560
120
0.1
33k
220 16V
V
68
680p
68560
560
4.7k
33
47
10k
5.1k
33
270
120
270
560
120
33k
270
10 16V
120
0(JUMPER)
560
2.2k
33
220
16V
0.1
0.1
270
1800
p
560
4.7k
47p
5.1k
100
33
120
NC
270
1200
p
0(JUMPER)
100
270
1800
p
100
68
10k
100 10V
33
3.3k
220
16V
120
33
100
16V
1.2k
1.8k 100
120
1.8k
560p
33
NC
270
100
47p
120p
100
680p
220
16V
33k
0.1
270
4.7k
100
560
270
1.2k
4.7k
560 680p
1.8k
120p
1800
p
33 33
560
2.2k
33k
120p
33
1800
p
V
47p
NC
0.1
560
33 3333
270
560
68
3322
016
V
270
100
16V
560
1.8k
CS4397
0(JUMPER)
3.9k
560p
120
68
120
330p
3.9k
3.3k
33k
0.1
220
16V
330p
270
4.7k
4.7k27
0
120
10k
220
16V
3.3k
120
270
120
560
100
120
1200
p33k
100
5.1k
1200
p
68
270
100
47
560
100 10V
100
16V
V
270
120
560
270
100
47p
560
100
68
1.2k
0.1
NC
47
220 16V
680p
100
100
10 16V
2.2k
100
4.7k
5.1k
1.2k
220
16V
270
560
33
220 16V
120
270
10k
100
100
1.2k
33k
V
560p
0.1
0.1
V
120
120
4733
p
100
100
33p
4733
p47
33p
4733
p47
22k
22k
22k
4733
p
22k
22k
22k
V
V
V
V
V
V
V
V
V
V
V
V
0(JUMPWE)
1 28
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
1
2
3
1
2
3
1
2
3
1
3
2 13
2
1
2
3
1
2
3
1
2
3
1
2
31
2
3
12
3
1
2
3
1
23
1
2
3
1
23
1
2
3
1
2
3
1
2
1
2
3
1
2
3 12
3
1
21
2
3
12
3
1
23
1
2
3
1
2
31
3
2
1
2
3
1
2
3
1
2
3
1
3
2
1
2
3
1
2
3
1
2
3
1
2
3
1
23
1
2
3
1
2
3
1
3
2 13
2
1
2
3
13
2
1
23
1
23
1
2
3
1
2
3
1
2
3
1
2
1
2
3
1
2
3
1
2
3
1 28
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
1
2
3
1
2
3
1
2
3
1
2
3
1
3
2
1
2
3
1
23
1
2
3
1
2
3
12
3
1
2
3
1
2
3
12
3
1
23
1
2
3
1
2
3
1
2
3
1
2
3
1
2
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
12
3
12
3
1
2
3
12
3
12
3
1
2
3
1
2
3
1
23
1
2
3
13
2
1
23
1
2
1
2
3
1
2
3
1
2
3
1 28
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
1
2
3
1
2
3
1
2
3
1
23
1
2
3
1
2
3
12
3
12
3
1
2
3
1
2
1
23
1
2
3
1
2
3
1
2
3
1
2
3
1
3
2
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
13
2
1
3
2
1
2
3
1
2
3
4
5
6
7
1
2
3
4
5
6
25
24
23
22
21
20
19
18
17
16
15
14
13
1
12
11
10
9
8
7
6
5
4
3
2
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
1
3
2
QD61
R651
R652
CD66
CD
63
CD67
CD
64
R602
R601CD65
CD68
CD
69
C60
1
R603
R605
R60
4
C60
2
Q603
R60
8
Q604
R60
6
R60
7
R61
0
D60
1
R615
C604
R60
9
D60
4D
605
C60
3R
611
Q606
R61
2
Q605
D60
3D
602
Q607
R61
4R
613
R622
C60
5C
606
C60
9
R623
C61
0
CD
62
CD
61
R63
3
R62
9
R62
8
D60
7D
610
Q615
Q614
Q612 Q613
Q611
R62
5
D60
8
D60
6
D60
9
R62
4
R63
1
R62
6
R62
7
R63
2 R641
Q620 Q621
Q622
Q618
Q619
Q617
R63
8
R63
5
R63
4
C61
2
D61
1D
612
D61
3
Q623
R63
9R
640
Q624
C61
3
C61
4
C616
C617
R64
3
R644
RN61 RN62
R645
C61
8
J605
R63
6
R63
7
D66
1
C65
2
R67
9
R65
4
Q655
D65
8
R695
D65
6
R65
7
D65
9
C667
D65
3
Q653
Q670
R68
1
C666
R653
R67
7
R672
R67
5
J606
R68
3
R66
3
Q656
R694
D66
2
R673
R65
9
C65
9
Q671
R67
6
C66
8
Q667
Q661
C65
1
Q662
R68
8
Q665
R691
D66
3
C66
0
R665
R69
0R
689
R66
1
D65
1
Q673
Q663
Q672
D66
0
C654
D65
2
R68
5
Q657
R65
6
R66
0
Q674
Q669
R68
4
Q664
Q654
R67
8
R66
2
D65
5
R67
4
D65
7
R69
3
C66
2
R655
R68
7
R65
8
D65
4
R68
2R
686
C65
3
Q668
R66
4
QN63 QN64
RN64RN63
Q757
Q765
C76
0
R701
R73
8
C75
2
C704
CD
71
R723
R772
QN73
Q715
C70
5
R70
8
R75
6 Q768
R791RN73
R76
2
R794
R77
5
R753
R73
3
R705
R77
8
C766
Q767
R751
D75
9
R78
7
Q719Q704
R702
C70
2
Q756
J705
Q754
CD76
Q706
R76
4
R744
D75
5
Q723
QD71
R755
R76
0
C70
9
D70
5
D71
0
Q703
D76
0
R70
9
Q769
D76
1
Q761
R77
4
D75
2
Q724
CD
79
R71
0
D70
1
C716
Q764
Q707
R75
8
C76
2
R72
6
R71
2
R72
8
RN71
R71
4
R78
8
R74
3
Q712
R715
D75
6
R71
3
R73
4
R70
7
R77
7
R703
R741
R72
9D
758
R78
5
Q718
D71
2D
763
CD75
R72
4
Q711
C717
R75
9
QN74
R722
Q770
R78
9
D75
4
C71
3
CD78
D75
3
Q755
CD
72
R73
5
C75
1
R78
1
RN74
Q773
C70
3
R765
R78
3
R79
0
D70
4
R70
6
D70
6
C76
8
R78
4
C75
9
C767
D70
7
R795
R78
6
C70
1
R78
2
R77
6
D75
7
R79
3
CD77
R73
9
R773
C71
4
D71
1
Q720
R72
5
Q717
Q772 Q774
R76
3
Q753
CD
74R752
R70
4
Q705
J706
R745
R75
7
R75
4
C71
0
Q762
R74
0
C71
8
R73
7
R73
2
D71
3
Q763
C75
3
D70
9
C754
R76
1
Q713
C71
2
Q714
C70
6
Q722
D70
8R
779
CD
73
R73
6
D70
2
RN72
D70
3
D76
2
D75
1
Q771
R71
1
R73
1
Q721
R72
7
Q456
R401
RN44
R453
C46
2
R40
4
C404
C40
1
Q421
R41
4
R44
0
R47
8
R472
D46
0
Q420
Q412
Q455
Q418
Q454
R42
9
C454
R46
3
C45
1
Q415
C40
3
C46
8
CD
42
R46
2
R46
4
D40
1
R49
0
Q417
R43
9
R48
7
D46
3
R41
2
R40
8
R48
9C
414
R43
7
D45
8
J406
D40
2
CD
44
Q411
D40
4
Q469
R43
1
Q463
R45
4
D40
5
D45
2
QD41
Q472
Q404
D45
6
C467
D45
7
R455
C46
0
R40
7
R45
8
R47
5
C45
2
D45
5
QN44
Q461
R405
R423
R47
9
D41
1
D45
3
CD
49
Q467
C41
3
Q413
C40
2
Q422
Q470
R42
7
Q471
RN41
RN43R
486
R42
5
D41
2
R44
3
Q414
C40
5
J405
R473
R42
4
Q468
R43
6
R45
7
R40
9
R41
1
D40
6
R441
C40
9
D40
3R
410
R48
3
R415
D45
9
C45
9
R47
6
R43
4
Q403
Q464 R495
R43
8
R403
CD47D
408
D41
3
CD
41
Q474
QN43
Q457
R48
5
R47
4
Q462
Q406
R48
1
R43
5
R494
Q473
D45
1
D46
1
C45
3
R42
8
R43
3
Q405
R42
6
D45
4
R402
CD48
C41
8
R48
8
C466
C41
2
R48
2
R444
Q423
CD45
R422
D40
9
R46
1
RN42
Q453
R465
R451
C40
6
R48
4
R45
9
R41
3
C416
D40
7
Q419
R45
6
R47
7
R49
3
R43
2 R445
R452
R46
0
Q465
C41
0
CD
43
CD46
Q407
D41
0
D46
2
Q424
R40
6
R491
JD02
R63
0C
611
R696
R646
J901
C71
1R
730
C76
1R
780
C41
1R
430
C46
1R
480
JD01
RD65
RD75
RD45
QN61 QN62
QN71 QN72
QN41 QN42
Q602
Q601
Q652
Q651
Q701
Q702
Q751
Q752
Q401
Q402
Q452
Q451
Q610
Q609
Q660
Q659
Q709
Q710
Q760
Q759
Q409 Q410
Q459 Q460
R68
0C
661
J707
J407
RD64
RD74
RD44
Q466
Q758
Q408
Q616
Q666
Q716
Q708
Q608
Q658
Q416
Q458
Q766
C417
FRONTL.CH
FRONTR.CH
SURROUNDL.CH
SURROUNDR.CH
SUBWOOFER
CENTER
7P(EH)
PH6P
25P
GR,BL
+ -
GR,BL
GR,BL
384/192fs
GR,BL
GR,BL
+ -
GR,BL
GR,BL GR,BL
GR,BL
GR,BL
GR,BL
GR,BL
GR,BL
GR,BL
0
66
-
GR,BL
GR,BL
GR,BL
GR,BL
-GR,BL
+66
GR,BL
GR,BL
0
GR,BL
+
GR,BL
GR,BL
GR,BL
GR,BL
GR,BL
GR,BL
16
CD=H
1514
FROM X/X PAGE(DAC BUS)
2-CHANNEL DAC/LPF (AUDIO)DIFFERENCIAL 031G HDAM SHILED CURRENT LPF
PP16 POWR & DAC
031G HDAM SHILED
GR,BL
GR,BL
GR,BL
-
GR,BL
GR,BL
GR,BL
GR,BL
14
GR,BL
15
GR,BL
032G HDAM SHILED
GR,BL
CD=H
GR,BL
16
384/192fs
GR,BL
GR,BL
GR,BL
GR,BL
GR,BL
GR,BL
GR,BL
GR,BL
GR,BL
GR,BL
-
4-CHANNEL DAC/LPF (AUDIO)
GR,BL
GR,BL
-
+
-
+
GR,BL
66+
66
0
0
GR,BL
+
GR,BL
GR,BL
GR,BL
1CH/2CH
3CH/4CH
GR,BL
GR,BL
GR,BL
DAC DATA INPUT FIG
GR,BL
+
GR,BL
-12V
GR,BL
66
GR,BL
GR,BL
GR,BL
GR,BL
+
GR,BL
GR,BL
-
-
384/192fs
GR,BL
16
+
GR,BL
-
GR,BL
GR,BL
CD=H
GR,BL
5CH/6CH
GR,BL
GR,BL
GR,BL
032G HDAM SHILED
GR,BL
GR,BL
GR,BL
15
-
GR,BL
GR,BL
GR,BL
14
-12V
+
+12
GR,BL
GR,BL
G
GR,BL
0
GR,BL
0
GR,BL
G
GR,BL66
+12
FR
OM
MA
IN P
CB
GR,BL
GR,BL
PA16 MULTI CHANNEL
15
16
14
L MM L M
L,CH R,CH
DACK
DAD1,3,5
SCLK
GR,BL
GR,BL
GR,BL
GR,BL
GR,BL
GR,BL
TO
PH
ON
E P
WB
032G HDAM SHILED
032G HDAM SHILED
DA
C IN
TE
RF
AC
E
FR
OM
MA
IN P
CB
FR
ON
T
RST
RST
TMUT2
LDA
LFB
LFB
LDA
AR
A
AR
AA
RA
AR
AA
RA
AR
A
AR
A
AR
A
AR
A
AR
A
AR
A
AR
A
ARS
ARS
ARS
ARS
ARS
ARS
1211
DVDRFP SDFN
RX
ME
VO
MIN
MLP
F
MB
MP
MIR
R
LDO
N
VN
B
PD
-CD
PD
-DV
D
CD
LD
DV
DLD
VC
VP
B
CD
-E
CD
-F
MF
V
VN
A
EN
N
EN
P
DIP
DIN
BY
P
RF
AC
VP
A
AP
AIN
AT
ON
AT
0P
RF
SIN
RF
DC
DVDRFN
A2
B2
C2
D2
CP
CN
D
C
B
A
CD-D
CD-C
CD-B
CD-A
SDATA
SCKK
Y33
LCP
LON
MNTR
CE
FE
TF
PI
V25
V125
TPH
DFT
KINK
D
GS
D
GS
B
VCC
G
F
RF
VC
H
GND
C
E
D
A
FCS+
LD
FCS-
TRK-
TRK+
PD
LDGND
VR
LD
VMOD
PD
VR
LDGND
DV
dd0
XR
ST
MU
TE
DA
TA
XLA
T
SC
OK
SE
NS
SC
LK
AT
SK
WF
CK
XU
GF
XP
CK
GF
S
C2P
O
SC
OR
C4M
WD
CK
DV
ss0
CO
UT
MIR
R
DFCT
FOK
PWMI
LOCK
EXCK
SBSO
SCSY
SQCK
SQSO
XOLT
SOCK
SOUT
XTAO
XTAI
DVss2
XTSL
EMPH
BCK
PCMD
LRCK
VP
CO
V16
M
VC
TL
BLA
S
AV
DD
1
PC0
FIL
L
FIL
0
CLT
V
Vss
1
RF
AC
AS
Y1
AS
Y0
AV
ddO
IGF
N
AV
ssO
AD
IO
RE
DC
CF
TE
DOUT
MD2
ASYE
DVdd2
MDP
SSTP
FSTO
DVdd1
SFDR
SRDR
TFDR
TRDR
FFDR
FRDR
DVss1
TEST
TES1
VC
FE
SE
LIMITSW
LIMITSW
SLED-
SLED+
SPINDLE-
SPINDLE+
BA
IAS
IN
OP
IN1+
OP
IN1-
OP
OU
T1
OP
IN2+
OP
IN2-
OP
OU
T2
FIN
GN
D
MU
TE
1
PO
WV
cc
VO
2-
VO
2+
VO
1-
VO
1+V
O4+
VO
4-
VO
3+
VO
3-
PO
WV
cc
MU
TE
2
GN
D
FIN
OP
OU
T3
OP
IN3-
OP
IN3+
OP
OU
T4
OP
IN4-
2
2
2
2
2
2
G
F
H
E
FCS+
FCS-
TRK-
TRK+
LV_DVD
LV_CD
H
G
F
E
AMPSEN
AMPSDT
AMPSCK
AMPMNT
LDON
SRDR
SFDR
SP
O
SLM
UT
FC
S+
FC
S-
TR
K+
TR
K-
FTMUT
FJUP_U
FJUP_D
FR
DR
FF
DR
TF
DR
FSJP
RFAC
MIR
R
GR
SC
OR
SC
OR
C2P
O
GF
SD
SP
WF
CK
SN
SCK
SE
NS
DS
PS
CK
DS
PX
LAT
DS
PS
DT
XR
ST
XM
OD
ON
DFCT
FOK
LOCK
MDPCD
XLIM
DFCT
FOK
SFDR
SRDR
TFDR
TRDR
FFDR
FRDR
EXCK
SUBDT
SQCK
SQSO
XLIM
SL-
SL+
SP-
SP+
BCK
PCMD
LRCK
DIGO
TZC
XFCMP_L
XFCMP_H
LV_D
VD
LV_C
D
SCSY
CD/XDVD
EXCK
SUBDT
SCSY
SQCK
SQSO
XRST
AMUT
DSPSDT
DSPXLAT
DSPSCK
SENS
SNSCK
WFCK
GFSDSP
C2PO
SCOR
GRSCOR
MIRR
DFCT
FOK
LOCK
XLIM
XMODON
CD/XDVD
FSJP
AMPSEN
AMPSDT
AMPSCK
AMPMNT
LDON
FTMUT
SLMUT
SPO
FJUP_U
FJUP_D
AM
UT
TR
DR
MDPCD
1 48
4932313029282726252423222120191817
505152535455565758596061626364
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
2
1
3
2
1
3
1
2
3
4
5
6
7
8
9
10
11
12
13
25
14
15
16
17
18
19
20
21
22
23
24
21
3
2
3
8
1
45
6
7
21
3
21
3
1615
1413
1211
1098
76
54
32
1
2
3
8
1
45
6
7
45
6
7
83
2
1
1234567891011121314151617181920
21
22
23
24
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
6059585756555453525150494847464544434241
64
63
62
61
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
2
3
4
1
85
6
7
45
6
7 83
2
1
43
2
1
6
5
8
7
33.8688MHz
6
5
4
3
2
1
1
2
38
4
7
5
6
31
2
6
5
4
7
1 2 3 4 5 6 7 8 9 10 11 12 13 141516171819202122232425262728
1SS300,DAP202U
13
2
5 4
1 2 3
7
6
58
4
1
3
2
SL+SL-
SP
-
SP+
25P 1MM
6P PH
1.70V
TO J105 (6PIN)
PD-CD
A
D
C
B
PD-DVD
VMODE
H
G
E
F
CD-E
CD-F
DV
DL
D
CD
LD
AMPSEN
AMPSDT
AMPSCK
AMPMNT
CD_RFAC
RFDC
XMODON
MDPCD
LDGND
LD
VR
PD
VMOD
LD
VR
LDGND
PD
TRK+
TRK-
FCS-
FCS+
A
D
E
C
GND
H
VC
RF
F
G
VCC
B
780n
650n
FR
OM
OP
TIC
AL
UN
IT
FOR DSD RF AMP
FOK_DVD
XFCMP_L
XFCMP_H
TZC
SL-
SL+
SP-
SP+
RF AMP AND ACTUTOR CONTROL
MOTOR DRIVER
VC16(Refrence)
0.6V-P-P
0.3V-P-P
0.7V-P-P
0.6V-P-P
0.8V-P-P
1.5V-P-PRFAC
1.7
FOK_DVD
FOK_DVD
L=SA, H=CD
RFACO
RFDCO
2.5V
CD CLV
CXD1881R
GND
A5V
GND
2SK3019
2SK3019
GND GND
A5V
VC
25
GNDGNDGNDGND
GND GND
VC25
A5V
GNDGND
GND
GND
2SB798
GND
A5V
GND
GNDGND
A5V
NJM2115V
A5V
VC
25
VC
25
GND GND
NJM2115V
2SB798
GND GNDGND
GND
A5V
GND
GND
GND
GND
GNDGNDGND
A5V
2SB798
GND
GND
GND GND
A3.
3V
GND
A3.
3V
A5V
GND
GNDA5V
GND
P8V
GND GND
VC16
GND
GND
P8V
P8V
GNDGND
GND
VC
16
VC
16
GNDGND
GND
GND
D3.3DV
GNDGND
NJM2137V
GNDGND
VC
16
A5V
GND
NJM2137V
GND
AD8062
GND
GND
GND
AD8062
GND
GND
A5V
VC
16
CXD3068Q
GND
VC
16
GND
GND
A3.3CD
GND GND
GND
GND
A3.3CD GND GND
RFAC
GND
NJM2903V
VC
16
GND GND
D3.3DV
NJM2903V
A5V
VC
16
D3.3DV
GND
NJM2115V
VC
16
GND
A5V
NJM2115V
GND
GND
NJM2903V
GND
GND
A3.
3DV
NJM2903V
A3.3DV
A3.3DV
GND
GND
D3.
3CD
GN
DG
ND
A5V
GN
D
768FS
GND
A5V
NJM3414AV
GNDGND
A3.3DV
VC16
BCK
PCMD
LRCK
DIGO
FOK
DSPSCK
SENS
SQSO
SQCK
MIRR
FSJP
FJUP_U
FJUP_D
XLI M
XMODON
LDON
FTMUT
SLMUT
XRST
CD/XDVD
LOCK
AMPSDT
AMPSCK
AMPSEN
TZC
XFCMP_L
XFCMP_H
GND
NJM3414AV
1SS301,DAN202U
DSPSDT
AMUT
DSPXLAT
EXCK
SUBDT
SCSY
GRSCOR
SCOR
C2PO
GFSDSP
WFCK
SNSCK
DFCT
SPO
VC25
AMPMNT
GND
GND
GND
GND
VC
25
NJM2115V
GND
BA
5981
FP
TC7SHU04F
GND
D3.3CD
GND
NC
NC
GND
GND
GND
NC
GND
NC
A5V
GND
VC16
GNDGND
VC16
MDPC
GND
PV16 SERVO (1/3)
12k 1%
0.1
0.1
0.1
1500
p
1500
p0.
01
0.1
226.
3V
3300p
3300p0.10
0
NC
1000
p
1000p
330p
22p
22p
22p
22p
2200p
2200p
2200p
2200p
476.
3V
1u
226.
3V
1016
V
47
1016
V
470
1k 0.1
0.1
226.
3V
22k22k
22k
11k
22k22k
11k
22k
1016
V0.1
47
1016
V
1016
V
33k
3333
0.1
3310
V
470
1000
p
0.1
1016
V
3310
47
1016
470
333333
k
1000
p
0.1
0.1
476.
3V0.
1
0.1
0.04
7
10M
150p
0.03
3
0.03
3
47k
0.01u
1016
V 0.1
0.06
8
22k
27k
47k
15kk
0.068
22k
150k
150k
2200
p
1k
1k
0.1
4716
V47
16V
0.1
56k
220p
0.1u47k
56k 220p
56k
47k0.1u
56k
560p
5.6k
1.8k
k
1.8k
33k
1016
V 0.1
5.6k
560P
33k
2200p
1k
470p
2.2k
2.2k 1k
10k
4.7k
4.7k
0.1
4.7k
226.
3V
22k
0.1
36k
8.2k
22k
1p
22k
15k
1p
47k
51 51
51 1k
0.1
0.1
2k
2k
0.1
0.04
7
270p
12k
47k
470p10k
226.
3V
33k
10k
100k
0.01
1k
0.047
1500p
10k
0.047
3.3k
3.3k
1u
220p
470k
1M47
0k
0.1
330p
10k
330k3.3k
3k
22k
4.7k
330k3.3k
3K
4.7k
150p
10k
10k
4.7k
1016
V
330k
0.1
0.1
1.5k
1.5k
10k
10k
10k
226.
3V
10k
1M
1M
10k
10k
0.1
1u
100
100
10k
100
100
100
100
10k
10k
1u
100
100
100
10p
7p
226.
3
0.1
0.1
1016
V
15k
15k
NC
226.
3V
226.
3V
1u
0.1
0.1
100
0.1
220
0.1
0.47
100
NC
0.1
0
0 OHM
NC
0.1
0.1
FB
4.7
10V
FB
22u/10v
NC
0 OHM
NCN
C
NC
NC
NC
NC
NC
NC
0 O
HM
4.7U 10V
MN
MN
0.1
0.1u68k
Q101
R125
C14
7
Q107
C14
9
Q108
C14
8
C15
0
C15
1C
152
C15
5C15
6
C154
C153C157R126
R12
1
R120
C12
4
C125
C134
C13
3
C13
2
C13
1
C13
0
C126
C127
C128
C129
J101C
121
C12
0
C10
2
C10
9
L103
Q103
C10
8
R109
R11
0
C10
7
C13
6
C13
5
Q102
R102R101
R103
R104
R106R105
R108
R107
C10
3
C10
4
Q102
Q104
L104
C11
4
C11
3
R11
4
R11
2
R11
3
C11
0
C11
1
R111
C11
2
C11
5
C11
9
C11
6
L105
C11
8
R115
R11
6
R11
7
Q105
R11
8
C11
7
C144
C14
5
C14
6C
142
C141
C14
0
R123C13
9
C13
8
C13
7
R217
C215
C22
0
C21
9
C21
6
R22
1
R21
9
R22
0
R21
8
C218
R226
R223
R222
C21
7
R224
R225
C21
4
C21
3C
212
C21
1
R215
C209
C210R216
R21
1
C207
R213
R214C208
R20
9
C205
R208
R20
3
R20
5
R207
C20
1
C20
2
R201
C203
R202
C206
R21
2
C204
R20
4
R20
6
R21
0
R16
7
R168
R169
C179
R170
Q109
C16
0
R129
C15
9
R130
R131
R128
C158
R132 Q109
R134
C161
R133
Q110
R136 R137
R13
5
R13
8
Q110
C16
2
C163
R139
R140
Q116
C18
3
C18
1
C18
0
R171
R172
C18
2
R173
C18
5
R174
R17
5
R176
C18
6
R14
1 C164
C188
R17
7
C189
R17
8R
179
C191
C190
R180
R18
1R
182
C19
2
C16
5
R142Q112
R144R143
R145
R14
6
R14
7
R149R148
Q112R150
R15
1
C170
R152
R153
Q113
R15
4C
171
R155
C17
2
C17
3
Q113
R15
7R
158
R15
9
Q114
R163
R15
6
C17
5
R160 Q114
R161
R164
R16
5R
162
C19
6
C18
4
R191
R190
R189
R188
R187
R186
R185
R184
R183
C19
3
R19
7
R19
6
R19
5
X101
C194
C195
J102
C25
8
C25
7
Q118
C16
6
C16
7
R25
6R
255
R257
C17
4
Q118
D105
C19
7
C14
3
C168
C176
Q111
R119
C12
2
Q11
7
D104
Q119
R192
C169
D108
D107
C18
7
R19
3
R25
8
C12
3
R234
R259
R260
C177
C178
L101
C10
1
L102
C347
Q106
R373
R372
Q106
R374C
360
C357
R375
R377
R371
C359
C358
R37
6
C362
R245
R244
C20
0
C363R378
TC74LVX4053FTQ115
TC74LVX4053FTQ115
13 14
XR
ES
ET
DR
VIR
Q
DR
VR
DY
1
DR
VT
X
DR
VR
X
MS
RA
DY
MS
DT
I
MS
DT
O
MS
CK
XM
SLA
T
RE
QS
T
DS
PS
CK
DS
PS
DT
DS
PX
LAT
FO
K
SENS
SQSO
SNSCK
SQCK
AMPMNT
SCSY
GFSDSP
MIRR
FJUP_D
FJUP_U
XFCMP_L
XFCMP_H
XINT1
XINT0
DECD7
DECD6
DECD5
DECD4
DECD3
DECD2
DECD1
DECD0
XDECSEL
TZC
AMPSEN
AMPSCK
AMPSDT
LOCK
CD/XDVD
XRST
XR
ST
SLMUT
FTMUT
XD
EC
WR
XD
EC
RD
DE
CA
0
DE
CA
1
DE
CA
2
DE
CA
3
DE
CA
4
DE
CA
5
DE
CA
6
DE
CA
7
XIN
T0
XIN
T1
XM
OD
ON
LDO
N
SPO
MDPC
DFCT
GRSCOR
EXCK
SUBDT
SCOR
WFCK
C2PO
BCK
PCMD
DBCK
DDAT
DLRC
XRESET
768FS
DECD0
DECD1
DECD2
DECD3
DECD4
DE
CD
5
DE
CD
6
DE
CD
7
DE
CA
0
DE
CA
1
DE
CA
2
DE
CA
3
DE
CA
4
DE
CA
5
DE
CA
6
DE
CA
7
XD
EC
RD
XD
EC
WR
XD
EC
SE
L
XIN
T0
XIN
T1
RFAC
VDT00
VDT01
VDT02
VDT03
VDT04
VDT05
VDT06
VDT07
XVFLAG
VD
T07
VD
T05
VD
T04
VD
T03
VD
T02
VD
T01
VD
T00
MD0
MD1
MD2
MD3
MD4
MD5
MD6
MD7
XMWR
XRAS
XCAS
MA4
MA5
MA6
MA7
MA8
MA9
XMOD
MD15
MD14
MD13
MD12
MD11
MD10
MD9
MD8
XRAS
XMWR
MD7
MD6
MD5
MD4
MD3
MD2
MD1
MD0
MA7
MA6
MA5
MA4
MA3
MA2
MA1
MA0
MA3
MA2
MA1
MA0
MA
8
MA
9
XC
AS
XM
OD
MD
8
MD
9
MD
10
MD
11
MD
12
MD
13
MD
14
MD
15
XSHD
SDCK
XSAK
SDEF
VDT[0]
VDT[1]
VDT[2]
VDT[3]
VDT[4]
VDT[5]
VDT[6]
VDT[7] VDT[7]
VDT[6]
VDT[5]
VDT[4]
VDT[3]
VDT[2]
VDT[1]
VDT[0]
SDEF
XSAK
SDCK
XSHD
REQST
XMSLAT
MSCK
MSDTI
MSDTO
MSRADY
XRST
SMUT
DECMNT2
DR
VR
DY
1
FOK
DSPXLAT
DSPSDT
DSPSCK
SENS
SQSO
SNSCK
SQCK
AMPMNT
SCSY
GFSDSP
MIRR
FJUP_D
FJUP_U
XFCMP_L
XFCMP_H
XLIM
XMODON
LDON
FTMUT
SLMUT
FSJP
XRST
CD/XDVD
LOCK
AMPSDT
AMPSCK
AMPSEN
TZC
MDPC
DFCT
GRSCOR
EXCK
SUBDT
SCOR
WFCK
BCK
PCMD
LRCK
C2PO
XR
ES
ET
DR
VR
ST
XLIM
FS
JP
AMUT
DR
VIR
Q
DR
VT
X
DR
VR
X
DLR
C
DB
CK
AMUT
SLMUT
FTMUT
AMUT
VD
T06
XV
FLA
G
SM
UT
LRCK
SE
EK
DR
VT
X
DR
VIR
Q
DD
AT
DRVRX
DR
VR
ST
DR
VC
LK
REQST
RE
QS
T
B
C
E
B
C
E
B
C
E
B
C
E
2
2
2
2
NC
NC
NC
FROM Q110(RF AMP)
EDO RAM
6P
XRESET
JIT5V
DECMNT2 DECMNT2
TO
Q12
3(C
XD
2752
R)
TO
Q12
3(C
XD
2752
R)
TO
QF
01
BU
S L
INE
(A T
O A
)
EJC
T+
EJC
T-
EJ-
EJ+
XTCLS
XTOPN
(CO
NN
EC
TO
R)
TO
FE
AT
UR
UP
(CO
NN
EC
TO
R)
TO
FE
AT
UR
UP
DVD DECORD CONTROL MPU
DE
CM
NT
1
DRVRDY
DRVCLK
NJM2115V
A5V
GNDGND
GND
GND
VC
16
GND
A5V
GND
DTA144EUA
DTC144EUA
D3.
3DI
CXPQ71000
CXD1882R
GND
GND
GND
GND
GND
M3.3V
GND
M3.
3V
GND
D3.
3DV
GND
GND
GND
GND
GND
M3.3V
M3.3V
SPO
GNDGND
M3.3V
A3.
3DV
768FS
GND GND GND
GNDD
3.3D
VD
5VD
V
A3.3DV
GND
GND
VC
16
RFAC
GND
GND
D3.3DV
D5VDV
GND
GND
D3.
3DV
D3.
3DV
GND
FB
TC74VHC541FT
GND
GND
D3.3DI
GND GND
D3.3DI
TC74VHC541FT
DTC144EUA
M11L16161SA-45T
GND
GND
D3.3DV
FB
GND
FB
VDT[7]
VDT[6]
VDT[5]
VDT[4]
VDT[0]
VDT[3]
VDT[2]
VDT[1]
SDCK
XSHD
XSAK
SDEF
MSCK
XMSLAT
MSDTO
DECMNT2
XRST
SMUT
GND
TC
7WH
74F
U
D3.3DI
GND GND
GND
DRVTXI
DRVRQI
DRVRDY
DRVCLK
FOK
DSPSDT
DSPXLAT
DSPSCK
SENS
SQSO
SNSCK
SQCK
AMPMNT
SCSY
GFSDSP
MIRR
FJUP_D
FJUP_U
XFCMP_L
XFCMP_H
XLIM
XMODON
LDON
FTMUT
SLMUT
FSJP
XRST
CD/XDVD
LOCK
AMPSDT
AMPSCK
AMPSEN
TZC
+5B
2SC4116
2SB789 2SB789
2SD999
GND GND
2SD999
GND
2SC4116
GND
MDPC
DFCT
GRSCOR
SCOR
SUBDT
WFCK
C2PO
LRCK
PCMD
BCK
GND
GND
GND
D5V
DV
M3.3V
M3.3V
D3.
3DI
TC
7WH
08F
U
SEEK
GND
A5V
GND
GND
DRVRST
M3.3V
AMUT
GN
D
GND
GND
MSDTI
MSRADY
REQST
EXCK
GND
GND
GND
GND
GND
TC74VHC86FT
DTC144EUA
GND
-ATT
M3.3V
GND
GND
DRVRX
EC
105D
S2
GND
GND
GND
GND
GND
1SS300,DAP202U
PV16 SERVO (2/3)
FTMUT
SLMUT
AMUT
SMUT
XRST
CD/XDVD
LOCK
MBHLD(NC)
AMPSDT
AMPSCK
AMPSEN
XDECSEL
VSS
D0
D1
D2
D3
D4
D5
D6
D7
XDECINT
XRDCINT
TZCIN
PE3P
E4
SE
EK
HD
RQ
/RE
QS
T
SP
EG
DE
CM
NT
1
FO
K
GF
SD
EC
DR
VR
XD
DR
VT
XD
DR
VC
LK
XD
RV
RD
Y
DR
VIR
Q
XR
ES
ET
Vss
XT
AL
EX
TA
L
Vgg
DS
PX
LAT
XM
SLA
T
MS
CK
MS
DT
0
MS
DT
1
MS
DE
DY
DS
PD
T0
DS
PS
CK
SENS
SQSO
SNSCK
SQCK
VSS
JITIN
AMPMNT
-ATT
P17
PJ0
PJ1
GFSDSP
C2PO
MIRR
DECMNT2
EJUP_D
EJUP_U
AVss
AVref
AVdd
XFCMP_L
XFCMP_H
XLIM
XTCLS
XTOPN
ED
CE
RR
BU
EE
MP
EP
DA
EP
CL
PC
RXD
PC
TX
D
FS
JP
SY
NC
ER
R
XD
EC
WR
XD
EC
RD
NC
VD
D
VS
S
A0
A1
A2
A3
A4
A5
A6
A7
XM
OD
ON
LDO
N
EJC
T-
EJC
T+
D5
D6
Vss
D7
A0
Vdd
A1
Vdd
5V
A2
A3
A4
A5
A6
A7
VS
S
XW
AIT
XR
Q
XW
R
XC
S
XIN
T0
XIN
T1
VD
D
XH
RS
/(N
C)
HD
B7/
DA
T7
VS
S
HD
B8/
XV
FLA
G
HD
B6/
DA
T6
VD
DS
HD
B9/
0(N
C)
HD
B5/
DA
T5
HD
BA
/0(N
C)
HS
B4/
DA
T4
D4
D3
D2
D1
D0
Vdd
XLT1
XLT2
VSS
XTAI
IFS1
IFS0
XRST
LRCK
DLRC
VSS
MDAT
DDAT
BCLK
DBCK
VDD
C2PO
VDDS
XRCI
VDD5
WFCK
SCOR
VSS
SBIN
EXCK
GSCOR
DFCT/LINK
HDBF/0(NC)HDRQ/XACK
VDDSXHWR/DCK
XHRD/XHDRO
VDD
REDY
VSS
XMAC/REQUEST
HINT
XS16
HA1
XPD1
VDDS
HA0
HA2
VSS
HCS0(NC)
HCS1(NC)
VDD
DASP
MDB0
MDB1
MDB2
MDB3
VSS
MDB4
VDD5V
MDB5
MDB6
MDB7
XMWR
FD
O
PD
HV
C0
PD
O
VC
CA
2
VC
CA
3
LPF
1
LPF
2
VC
1
LPF
5
GN
DA
3
GN
DA
4
VC
OIN
VC
OR
1
VC
CA
4
VC
CA
5
RF
IN
RF
DC
C
DA
SY
1
AF
S2
AF
S1
GN
DA
5
DA
SY
O
VD
D
AP
EO
VS
S
GF
S
MD
BF
MD
BE
MD
BD
VD
D5V
MD
BC
MD
BB
VS
S
HD
BB
/0(N
C)
HD
B3/
DA
T3
VD
D
HD
BC
/0(N
C)
VD
DS
HD
B2/
DA
T2
HD
BD
/0(N
C)
HD
B1/
DA
T1
VS
SH
DB
E/0
(NC
)H
DB
0/D
AT
1
VDD
XRAS
MA0
MA1
VSS
MA2
MA3
MA4
MA5
MA6
MA7
VDD
VD
D
MD
BA
VS
S
MD
B9
MD
B8
XC
AS
XM
OE
MA
11
MA
10
MA
9
VS
S
MA
8
MDPOUT
VDD
MDSOUT
VSS
CLVS
VCCA1
MDIN1
MDIN2
VC2
SP0
GNDA1
GNDA2
VCC
DQ0
DQ1
DQ2
DQ3
VCC
DQ4
DQ5
DQ6
DQ7
NC
NC
NC
WE
RAS
NC
NC
A0
A1
A2
A3
VCC VSS
A4
A5
A6
A7
A8
A9
OE
UCAS
LCAS
NC
NC
DQ8
DQ9
DQ10
DQ11
VSS
DQ12
DQ13
DQ14
DQ15
VSS
VC
C PR
CL Q
CK
D Q
GND
EJ*
XTOPN
EJ-
XTCLS
NC
NC
NC
DR
VIR
Q
DR
VR
ST
GN
D
DR
VT
X
DR
VR
X
DR
VC
L K
DR
VR
DY
GN
D
NC
GN
D
NC
GN
D
NC
CD
ER
R
CD
FB
M
CD
CLK
CD
DA
T
NC
83
2
1
12
3
12
3
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
25
26272829303132333435363738394041424344454647484950
5152
5354
5556
5758
5960
6162
6364
6566
6768
6970
7172
7374
75
76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99
100 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
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
33 34 35 36 37 38 39 40 41 42 43 44
77
78
79
80
81
82
83
84
85
86
87
88
100
99 98 97 96 95 94 93 92 91 90 89
144
143
142
141
140
139
138
137
136
135
134
133
12
3
12
34
56
78
910
2011
1213
1415
1617
1819
12
34
56
78
910
2011
1213
1415
1617
1819
12
3
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
25 2627
2829
3031
3233
3435
3637
3839
4041
4243
4445
4647
4849
50
8 7 6 5
1 2 3 41
2
3
2
1
3
2
1
3
1
2
3
1
2
3
1
2
3
6
5
4
3
2
1
8 7 6 5
1 2 3 4
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
1 2 3 4 5 6 7
14 8910111213
12
3
9P (MP-WRITE)
1
PCTXD 2
MPR3 3
PCRXD 4
MPR2 5
MPR1 6
GND 7
GND 8
M3.3V 9
GND
31
2
SE
EK
DR
VC
LK
+5B
0.1
226.
3V
22k
4.7k 0.1
6.8k
33k
1k
1k22
k1k
0.1
020MHZ
9.1k
10k
10k
10k
0.1
226.
3V
10k
10k
0.1
1k
22k
1M0.04
7
8.2k
0.1
4.7k
4.7k
1000
p47K
22k
22k
00.
01 0.1 0.
15.6k
1u
4.3k
220p
10k
0.01
2.2k
10k150k
470k
4700p
100
10k
100k
0.01
0.1
0.1
0.1
226.
3V
0.1
10k
10k
10k
10k
10k
10k
10k
10k
0.1
0.1
0.1
0.1
100
100
100
100
100
100
100
100
0.1
226.
3V
100
100
100
100
100
100
100
100
100
0.1
10k
0.1
0.1
4.7k 2.2k
2.2k
0.1
0.1
0.1
4.7k
0.1
NC
100
10k
10k
10k
47k
0.1
0.1
10k
0.1
0.1
0.1
0.1
0.1
0.1
0.47
22K
0.47
100
0.1
0.1
NC
NC
NC
NC
100p
22p
22u/
10v
Q111
C26
3
C26
4
R267
R271
C26
2
R266
R261
R263
R26
2R
264
R26
5
Q128
Q129
Q125
Q124
C26
8
R27
3X103
SF
PG
R27
2
P17
PJ0
R276
R275
R274
C26
9
C27
0
EP
CL
EP
DA
ED
CE
RR
R277
R316
C304
R31
2
R315
R31
3
C30
2
R314
C27
1
R27
9
R27
8
C30
1
R311
R31
0R
309
XWAIT
R31
7C
290
C29
3
C28
6
R30
1
C29
1
R308
R29
8R
297
C29
2
R302C288
C289
R30
3
R304R305
R306
C287
R307
R29
6
R295
C284
C28
3
C27
9
C28
0
C27
8
C27
7
R292
R291
R290
R289
R288
R287
R286
R285
C28
1C
275
C27
4C
276
L109
Q132
Q133
Q134
Q127
R339
R338
R337
R336
R332
R334
R333
R335
C30
8
C30
9
R327
R325
R326
R324
R328
R331
R329
R330
L110
R29
4
C31
1
L111
R34
4
C32
0
Q13
5
C32
1
R34
0
Q155
Q157
R34
1
R34
3
Q160
Q156
C31
5
C317
Q159
Q158
J104
C31
6
R34
2
Q13
6 C32
2
J108
R348
R251
R252
R253
R25
4
C297
C29
6
R283
C19
8
C27
3
C28
2
C19
9
C27
2
C312
C303
Q139
Q138
R28
2
C285
R293
J103
C31
3
C26
1
D10
9
C351
C352
C353
Z1
Z2
C22
3
C32
4
C32
3
C34
8
D106
TC74VHC86FTQ139
Q132 / Q133
TC7WH08FUQ136
TC7WH74FUQ135
1615
2
2
VS
CO
(GN
D)
XM
SLA
T
MS
CK
MS
DA
TI
VD
CO
(2.5
V)
MS
DA
TO
MS
RA
DY
(NC
)MS
DO
E
XR
ST
XM
UT
DS
D76
8fs
VS
IO0(
3.3V
)
EX
CK
O1(
384f
s)
EX
CK
O2(
256f
s)
(NC
)LR
CK
I
(NC
)F75
HZ
VD
IO0(
3.3V
)
MN
T0
MN
T1
MN
T2
(NC
)MN
T3
(NC
)MN
T4
(NC
)MN
T5
(NC
)MN
T6
(NC
)MN
T7
TC
K
(NC
)TD
I
VS
C1(
GN
D)
(NC
)TD
O
(NC
)TM
S
TR
ST
TE
ST
1
SD7
SD6
SD5
SD4
SD3
SD2
SD1
SD0
SDEF
XSAK
SDCK
XSHD
XSRQ
VDIO7(3.3V)
A0
A1
A2
A3
VDIO6(GND)
A4
A5
A6
A7
VDC6(2.5V)
A8
A9
VSC6(GND)
A10
A11
A12
VDIO6(3.3V)
XRAS
VDIO2(3.3V)(NC)SUPDT6(NC)SUPDT7(NC)SUPEN
VSC2(GND)
(NC)MUDAT
BCKDSL
BCKDI
(NC)BCKDO
VDC2(2.5V)
(NC)DSD1
(NC)DSD2
BCKASL
VSDSDO(GND)
BCKA1
BCKAO
PHREFI
(NC)PHREFO
DSFL
DSAL
ZDFR
DSAR
VDDSD(3.3V)
ZDFC
DSAC
ZDFLFE
DSALF
VDDSD1(GND)
ZDFLS
DSALS
ZDFRS
DSARS
DQ
8
DQ
7
VS
IO4(
GN
D)
WA
VV
SS
1(G
ND
)
WA
VV
SS
0(G
ND
)
WA
VR
B
WA
RFI
WA
VD
D1(
2.5V
)
WA
VV
DD
0(2.
5V)
WC
K
WR
FD
VD
C5(
2.5V
)
WA
D7
WA
D6
WA
D5
WA
D4
VC
S5(
GN
D)
TE
ST
I
WA
D3
WA
D2
WA
D1
WA
D0
VD
IO4(
3.3V
)
(NC
)ID
IN7
(NC
)ID
IN6
(NC
)ID
IN5
BS
IO3(
GN
D)
(NC
)ID
IN4
(NC
)ID
IN3
(NC
)ID
IN2
(NC
)ID
IN1
(NC
)ID
IN0
TE
ST
2
TE
ST
3
VD
C1(
2.5V
)
(NC
)UB
IT
(NC
)XB
IT
(NC
)SU
PD
T0
(NC
)SU
PD
T1
(NC
)SU
PD
T2
(NC
)SU
PD
T3
VS
IO1(
GN
D)
(NC
)SU
PD
T4
(NC
)SU
PD
T5
VDDSD(3.3V)
(NC)IOUT0
(NC)IOUT1
VDC3(GND)
(NC)IOUT2
(NC)IOUT3
VDC3(2.5V)
(NC)IOUT4
(NC)IOUT5VSIO2(GND)(NC)IANCO(NC)IFULL
(NC
)IV
LD
VD
C4(
2.5V
)
(NC
)IH
OLD
(NC
)IP
LAN
(NC
)IA
NC
I
(NC
)IE
RR
VS
C4(
GN
D)
(NC
)IB
CK
(NC
)IO
TE
(NC
)IF
RA
NV
DIO
3(3.
3V)
(NC
)IE
MP
TY
XCAS
XWE
DCKE
DCLK
VDIO5(GND)
DQ0
DQ1
DQ2
DQ3
VDIO(3.3V)
DQ4
DQ5C
OM
INOUT
CO
M
INOUT
CO
M
INOUT
DSAC
DSALF
DALR
MUT2
M43
RST
M3
M2
DSARS
DSALS
M42
M41
GND
+5B
M0
DACL
GND
SYCL
GND
DARD
DAPC
MUT1
MODE
LPFSW
+5B
M41
M42
M43
GND
MUT1
MUT2
GND
GND
GND
GND
GND
GND
GND
GND
FCEN
FRST
FCLK
FDAT
VRDAT
EE
CLK
GN
D
GN
D
AV
DD
OP
EN
OP
EN
LPF
SW
MO
DE
2
GN
D
GN
D
ST
BY
MO
DE
1
SY
CLS
W
GN
D
GN
D
GN
D
GN
D
GN
D
GND
GND
GND
RESET
GND
GND
GND
GND
GND
DISPLED
STBLED
SRLED
SALED
CDLED
GND
GND
GND
IRIN
GND
GND
VC
C
X1
X0
GN
D
AV
RE
F
AR
EF
Q
AG
ND
KE
Y0
KE
Y1
KE
Y2
KE
Y3
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
MO
DE
1
MO
DE
2
DRVCLK
DRVRX
DRVTX
CDRST
CDCLK
CAP
CDIN
CDOUT
EEDAT
GND
-ATT
DRVRQ
DRVRDY
DRVRES
IR
STBSW
SEEK
HWSTBY
MODE3
LRCK
CMOD
DALR
BCK
DSCK
DACK
DARD
DSAR
HM1
DAPC
DSAL
PCMD
SA/CD
+5A
+5A
GND
GND
KEY0
KEY1
FDAT
FCLK
FCEN
FRES
DISPLED
STBLED
SRLED
+12v
SALED
CDLED
STBSW
BK5V
RC5S
GND
DIGO
MGN
MGN
+8
+8
C
B
E
RFAC
A4
A5
A6
A7
A8
A9
DCKE
DCLK
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
XWE
XCASD
XRASD
A11
A10
A0
A1
A2
A3
REQST
XSHD
SDCK
XSAK
SDEF
REQST
XSHD
SDCK
XSAK
SDEF
VDT[0-7]
VDT[0]
VDT[1]
VDT[2]
VDT[3]
VDT[4]
VDT[5]
VDT[6]
VDT[7]
DQ
7
DQ
6
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
XRASD
XCASD
XWE
DCKE
DCLK
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DE
CM
NT
2S
MU
T
XR
ST
MS
DT
I
MS
DT
O
MS
CK
XM
SLA
T
MS
RA
DY
DECMNT2
XMSLAT
MSCK
MSDTO
MSDTI
MSRADY
XRST
DSALS
DSALF
DSAC
DSAR
DSAL
BCKAD
PCMD
DSAL
DAPC
DSAR
DARD BCKAD
BCK
DALR
LRCK
DSARS
DRVRQI
CDLED
SALED
SRLED
STBLED
DISPLED
KE
Y0
KE
Y1
M0D
M3D
M2D
RSTD
DRVTXI
DRVRXO
DRVCLO
WRDAT
FDAT
FCLK
FRES
FCEN
M43D
M42D
M41D
DIGO
CDLED
SALED
SRLED
STBLED
DISPLED
FRES
FCEN
FCLK
FDAT
KEY1
KEY0
M43
M3
M2
RC5S
FCLK
FDAT
WRDAT
FMD0
FMD2
FDAT
FM
D0
M42
M41
PCMD
RC5S
DACL
MUT1
-ATT
STBSW
MSRST
MUT2
768FS
STBSW
DR
VR
XO
DR
VC
LO
RS
TD
M43
D
M2D
M3D
M42
D
M41
D
DR
VR
X
DR
VC
LK
RST
MUT1
MUT2
DRVRST
DRVRDY
DRVRQI
DRVTXI
DRVRX
DRVCLK
LRCK
BCK
STBSW
SEEK
FMD2
DRVRST
-ATT
SEEK
DRVRDY
M0D
M3D
KE
Y1
KE
Y0
SMUT
M0D
DSAC
DSALF
DALR
DSARS
DSALS
DACL
DARD
DAPC
1
2
38
7
6
5
4
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
252627
2829
3031
3233
3435
3637
3839
4041
4243
4445
4647
4849
50
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
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
33 34 35 36 37 38 39 40 41 42 43 44
77
78
79
80
81
82
83
84
85
86
87
88
100
99 98 97 96 95 94 93 92 91 90 89
144
143
142
141
140
139
138
137
136
135
134
133
2
13
2
13
2
13
1
2
3
4
5
6
7
8
9
10
11
12
13
25
14
15
16
17
18
19
20
21
22
23
24
12
34
56
78
910
1112
1314
1516
1718
1920
31323334
100
999897969594939291908988878685
8079
7877
7675
7473
7271
7069
6867
6665
6463
6261
84838281
35363738394041424344454647484950
2122
2324
2526
2728
2930
6059
5857
5655
5453
5251
1615
1413
1211
1098
76
54
32
1
1
2
3
4
5
6
7
8
9
10
11
12
13
25
14
15
16
17
18
19
20
21
22
23
24
12
3
9
8
7
6
5
4
3
2
1
1
2
3
4
12
3
8 7 6 5
1 2 3 4
4.3 V
1 2
4 3
1 2 3 4 5 6 7
14 8910111213
1 2 3 4 5 6 7
14 8910111213
1
2
3
1 2 3 4 5 6 7 8 9 10
20 111213141516171819
M41
M42M3
M2
RS
T
M43
MSRST
EM636165TS-7
CXD2752R
100/
6.3v
FC
FC
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
1u0.1
2p
0.01
0.1
0.1
0.1
2p
0.1u
22/6
.3
100/
6.3
22/6
.3
22/6
.3
22/6
.3
22/6
.322
/6.3
100/
6.3
15k
5.1k
3k
2k
2k 3k
10k
10k
10k
10k
10k
10k
10k
10k
10k
0.1
8MHZ
0.1
100k4.
7k
10k
47k
47k
1u
0.1
100k
0
0.1
0.1
0.1
0.1
47k
47k
4.7k
47k
47k
47k
47k
100/
6.3
100/
6.3
22/6.3
100/
6.3
1U
0.1
47k
0.1
NC
NC
47k
10k
0.1
10k
10k
22/6
.30.
1
22/6
.3
S-80843ALNP
330K
0.1
0
22K
NC
NC
0.1
0.1
0
0
0
10
0.1
1k
0.1
0.1
0.1
2200
p
47
47
47
47
47
47
47
47
FC
FC
Q121
Q121
Q122
Q123
DS
DM
0
DS
DM
1
DS
DM
2
C34
2
Q152
L128
L129
L126
L123
Q151
L121
Q153
L124
ZDFLS
ZDFRS
ZDFLFE
ZDFC
ZDFR
ZDFL
J106
QF
01
Q126
C245
C242
C241
C240
C34
3
C23
9
C23
8
C34
4
C23
7
C24
6
C24
7
C24
8C
250
C24
9
C232
C225
C22
6
C23
0
C22
7
C233
C23
6
C34
0
C33
6
C33
9
C25
1
C23
5
C22
8C
229
C23
1
R22
7R
228
R231
R230
R229R232
R243
R235
R236
R237
R238
R239
R240
R241
R242
C29
4
J105
XF01 CF
05
RF
08
RF
07
RF
09
RF06
RF05
CF04
CF03
RF
10
RF
11
C252
C253
C254
C255
J110
RF03
RF04
RF
12
J109
RF
17
RF
16
RF15
RF14
C33
7
C34
5
L122
L120
CF08
C26
0
C25
9
C25
6
RF20
CF09
L131
L130
L125
QF03
RF18
QF04
RF
23
CF
10
RF22
RF21
C29
5C
F06
C23
4
QF02
RF02
Q14
1
Q14
0CF02
RF13
QF05 R351
R35
3
R352
C34
6
Q137
C310
R34
7
R34
9
RF19
R350
CF
07
RF
01
CF
12
CF
11
C22
2
CF
13
R354
R355
R356
R357
R358
R359
R360
R361
L133
L132
RFAC
A5V
GND GND GND
AD8062
A5V
GND GND
AD8062
GND
GND
D3.3DI
GND GND
GND
GND
GND GND GND
A2.6DS
D3.3DI
GND
GND
DECMNT2
XMSLAT
MSCK
MSDTO
XRST
SMUT
MSRADY
MSDTI
GND
NJM2391DL1-33
GND GND
GND
NJM2391DL1-33
GND
NJM2391DL1-26
GND GND
GND GND
DSDG3 DSDG2
DSDG1
DSDG1
MB
90F
553A
TC74VHC157FTGND
GN
D
GND
D3.3DS
DSDG1
PCMD
BCK
LRCK
GND
GND
GND5VU
GND
GND
5VU
GND
GND
5VU
GND
5VU
GND
GN
DG
ND
5VU
DIGO
GN
D
P8V
GND
GN
D
5VU
A5V
DRVRST
DRVRDY
DRVRQI
DRVTXI
DRVRX
DRVCLK
5VU
GND
GND
5VU
GND
D5VDV
A5V
D3.3DV
D3.3CD
A3.3CD
M3.3V
A5V D3.3DS
D3.3DI
D2.6DS
A2.6DS
+5B
A5V
+5B
A3.3DV
A3.3V
REQST
XSHD
SDCK
XSAK
SDEF
VDT[0-7]
GND
GND
DTC144EUAGND
GND
AT24C04N
GND
5VU
5VU
GND
5VU
D2.
6DS
D3.
3DI
D3.3DS
GND
GN
D
GND
5VU
GND
TC
74V
HC
74F
T
TC
74V
HC
00F
T
NC
GND
D3.3DI
D3.3DI
GND
GND
768FS
TC74VHC541FT
GND
D3.3DI
GND
GND
5VU
SEEK
A5V
-ATT
GND
GNDGND
GND
GND
DSD MULTI DECORDER
OP-AMP1/2
OP-AMP2/2
FLA
SH
U-C
OM
0HM
FROM RF IC(Q110-1)
WARFI
768FS
3.3V 1A
3.3V
3.3V 1A
3.3V
2.6V
2.6V
FO
R M
AIN
PC
B (
PP
16)
DS
D D
AT
A O
UT
AN
D P
OW
ER
IN
CD=L,SA=H
FR
ON
T D
AT
A P
OW
ER
TO
MA
IN P
CB
(P
P16
)
WF05
WF04
OPTION
SACD STERED : 0 OHMSACD MULTI : DELETE
CO
NN
EC
TO
RF
OR
MP
-WR
ITIN
G
CK
T
FR
OM
BU
CK
UP
MODE1(CD/SA SELECT)
5V
MASTER RESET
POWER STNDBY
CD=ALL TIME LOW
384/192
SA=CUSTOM IS LOW, NOMAL IS HIGH
PLAY:HSEEK:L
PV16 SERVO (3/3)
13
14
11
12
15
16
9
10
VCC
4A
STB
4B
4Y
3A
1
2
3
4
5
6
7
8
SEL
1A
1B
1Y
2A
2B
2Y
GND
3B
3Y
A GS
B A
Y B
A Y
B A
Y BY
Q137 TC74VHC541FTQ126 TC74VHC157FTQ141
Q140
TC74VHC74FT
TC74VHC00FT
17 18
D-G
ND
+5V
D-GND
D-GND D-GND
5V_STB
D-GNDD-GND
+5V
D-GND D-GND
D-GND
D-GND
D-GND
5V_STB
D-GND
5V_STB
D-GND
+5V
D-GND
D-GND
5V_STB
5V_STB
HQ31302410
D-GND
D-GND D-GND
H1
4.3V
H2
QY01
CY03
CY01
RY13
CY02
SY05 SY04 SY03 SY02 SY01
ZY01
DY02 DY03
DY05
DY04
DY01
CY05CY06
RY01
RY02RY03RY06 RY05
RY04
QY02 QY03 QY05
QY06
QY04
RY16
RY
15RY14 RY17
RY07
RY08
SY09
RY12 RY09
RY10
SY06SY07SY08
RY11
SY10
CY04
VX01
SY11
WY01 JY03
RY20
RY18 RY19
RY21
R50
1
R50
3R502
R504
LC75710NE
22P
47/16V
10K
0.1
IR SENSER
SACD ST SACD MULTI
STANDBY
DISPLAY OFF
CD
47/16V0.1
2.2K
5601.8K5.6K 1.8K
1.8K
DTA114ES DTA114ESDTA114ES
DTA114ES
DTA114ES
100
1K
1K1.2K
2.2K5605.6K 1.8K
1.8K
1.8K
0.1
10K
1K 1K
1K
0 0
0
0
49
G6
18
AM
18
19
AM
19
20
AM
20
21
AM
21
22
AM
22
23
AM
23
24
AM
24
25
AM
25
26
AM
26
27
AM
27
28
AM
28
29
AM
29
30
AM
30
31
AM
31
48G7
47G8
46G9
45G10
44G11
43G12
42G13
41AA6
40AA5
39AA4
38AA3
37AA2
36AA1
35AM35
34AM34
33
AM33
17
AM
17
50
G5
51
G4
52
G3
53
G2
54
G1
55
VF
L
56
TE
ST
57
VS
S
16 AM16
58
OS
CO
59
OS
CI
60
VD
D
64DI
63
CL
62
CE
61
RE
S
15 AM15
32
AM
32
14 AM14
13 AM13
12 AM12
11 AM11
10 AM10
9 AM9
8 AM8
7 AM7
6 AM6
5 AM5
4 AM4
3 AM3
2 AM2
1AM1
PLAY1 2
STOP1 2
PAUSE1 2
PREV1 2
NEXT1 2
2
3 1
12
3
12
3
12
3
12
3
12
3
TIME1 2
OPEN/CLOSE1 2
DIS_OFF1 2
TEXT1 2
S_MODE1 2
JY01
1GND2GND
3LED_CD
5LED_MULTI6LED_STB
7LED_DISP8F_RESET
9F_CEN10F_CLK
11F_DAT12KEY2
13KEY1
4LED_STEREO
145V_STB
15RC-5165V
175V18GND
19H120
-VFT21
H2
1 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 45 482 49
505154555657585960616163646566676869707172737475767778798081828384858687888990919293949798
POWER1 2
1
2
3
4
1
2
3
4
P[9]
P[10]
P[11]
P[12]
P[13]
P[1]
P[2]
P[3]
P[4]
P[5]
P[6]
P[7]
P[8]
P[14]
P[15]
P[16]
P[1
7]
P[1
8]
P[1
9]
P[2
0]
P[2
1]
P[2
2]
P[2
3]
P[2
4]
P[2
5]
P[2
6]
P[2
7]
P[2
8]
P[2
9]
P[3
0]
P[3
1]
P[3
2]
P[40]
P[39]
P[38]
P[37]
P[36]
P[35]
P[34]
P[33]
G[1
]
G[2
]
G[3
]
G[4
]
G[5
]
G[6
]
G[7
]
G[8
]
G[9
]
G[1
0]
G[1
1]
G[1
2]
G[1
3]
P[1
]
P[2
]
P[3
]
P[4
]
P[5
]
P[6
]
P[7
]
P[8
]
P[9
]
P[1
0]
P[1
1]
P[1
2]
P[1
3]
P[1
4]
P[1
5]
P[1
6]
P[1
7]
P[1
8]
P[1
9]
P[2
0]
P[2
1]
P[2
2]
P[2
3]
P[2
4]
G[1
]
G[2
]
G[3
]
G[4
]
G[5
]
G[6
]
G[7
]
G[8
]
G[9
]
G[1
0]
G[1
1]
G[1
2]
G[1
3]
P[2
5]
P[2
6]
P[2
7]
P[2
8]
P[2
9]
P[3
0]
P[3
1]
P[3
2]
P[3
3]
P[3
4]
P[3
5]
P[3
6]
P[3
7]
P[3
8]
P[3
9]
P[4
0]
PY16 DISPLAY SW
PY26 STANDBY LED
RNDMPROG A – B RPT 1
TEXT 1 2
TRK TTL TIME
3 4 5 6 7 8 9 10 1112 1314 1516 1718 1920
2019
ID3
2SC2120
ID3
ID3ID3
D-GND
D-GND D-GNDD-GND D-GND
DTC114TS
D-GND
D-GND
D-GND
NJM2114
2SC2120
2SA950
1SS176
1SS176
NJM2114+
12V
-12V
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND
A-GND1SS176
-12V
1SS1762SC2120
+12V
2SA950
A-GND
A-GND
A-GND
-12V
+12
V
A-G
ND
ID3
A-GNDA-GND
ID3
A-GND
A-GND
PH16 POWER STANDBY
PR16 HEADPHONE
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
4
1
5
9
4
1
2
3
2
1
1
2
NJM78L05A
1
32
1
2
31
2
3
1
2
34
8
1
2
3
1
2
3
31
2
46 5
7
5
6
1
2
3
1
2
3
1
2
3
1
2
3
1
3
2
1RCH
2-12V
3GND
4+12V
5LCH
6TMUT
1 STB_ON/OFF
2 GND
3 POWER
45V_STB
2SC2878
1
2
3
2SC2878
1
2
3
BACK UP TR
POWER RELLAY
2200/35V 0.1 47/16V
2.2K 10K
47/16V
47/16V
1K
H.P VOL BLACK
33
33
1.5K
1.5K
33
33
100
220/16V
220/
16V
10K
4.7K
334.7K
1.5K
33
10K
100
1K
1.5K
33
33
H.P JACK
47/16V
47/16V
100K
100K
2.2K
2.2K
0.01
1.25A 250V
4.7K
4.7K
L002
LH02
DH02
JH01
JH02
QH01
QH03
DH01
DH04DH03
CH02 CH03 CH04QH02
RH02 RH01
Q901
C901
C902
R901
Q903
Q905
D901
D903
R930
R903
R905
R907
R909
Q901
R911
R913 R917
C903
C90
4
R919
R921
Q907
R906
D904
D902
R922
R908
R904
Q904
R920
R918
R902
R910
Q908
R912
R914
Q906
J903
C905
C906
R91
5
R916
R923
R924
DH05
J902
L901
L902
C907
C908
CH05
FH01
JH03
DH06
R925
R926
Q910
Q909
7. PARTS LOCATION
Q471
|
Q465
Q423 Q424 Q473 Q474
QN41 - QN44
Q421
|
Q415
Q464
|
Q469
Q458
|
Q451
Q414
|
Q409
Q408
|
Q401
Q771
|
Q765
Q723 Q724 Q773 Q774
QN71 - QN74
Q721
|
Q715
Q764
|
Q769
Q758
|
Q751
Q714
|
Q709
Q708
|
Q701
PA16
QD41 QD71
21 22
Q771
|
Q765
Q723 Q724 Q773 Q774
QN71 - QN74
Q721
|
Q715
Q764
|
Q769
Q758
|
Q751
Q714
|
Q709
Q708
|
Q701
QD41
PP16
QF51QF52
QT01
Q857Q855Q856
Q852Q851Q853
Q821
QY05QY61
QN12 QN04QN01QN11QN02QN03Q801Q802Q802QD23
QD21QD25QD22
QD24QD26QD27
2423
QH03QH02 QH01
PH16
PR16
Q908Q903
Q907Q905 Q906
Q901Q904
Q909Q910
PY26
PH26
PY16QY05 QY02 QY04 QY03
QY01 QY06
25 26
QF01 Q153 Q123 Q159 Q160 Q157 Q156 Q136 Q135
Q134
Q137
Q139 QF02Q121 Q110 Q132 Q133
Q102 Q101 Q108 Q107 Q124Q103 Q104 Q109
Q115 Q106 Q138 Q125
PV16
Q117 Q116 Q119Q118
Q113 Q114 Q127Q152 Q151 Q122QF03 Q126 Q155 Q129
QF04 Q104 Q141 Q158 Q128
PV16
2827
Pin Description
Pin No
Symbol I/O Description
1 DVDD0 — Digital power supply.
2 XRST I System reset. Reset when low.
3 MUTE I Mute input (low: off, high: on)
4 DATA I Serial data input from CPU.
5 XLAT I Latch input from CPU. Serial data is latched at the falling edge.
6 CLOK I Serial data transfer clock input from CPU.
7 SENS O 1, 0 SENS output to CPU.
8 SCLK I SENS serial data readout clock input.
9 ATSK I/O 1, 0 Anti-shock input/output.
10 WFCK O 1, 0 WFCK output.
11 XUGF O 1, 0 XUGF output. MNT0 or RFCK is output by switching with the command.
12 XPCK O 1, 0 XPCK output. MNT1 is output by switching with the command.
13 GFS O 1, 0 GFS output. MNT2 or XROF is output by switching with the command.
14 C2PO O 1, 0 G2PO output. MNT3 or GTOP is output by switching with the command.
15 SCOR O 1, 0 Outputs a high signal when either subcode sync S0 or S1 is detected.
16 C4M O 1, 0 4.2336MHz output. 1/4 frequency division output for V16M in CAV-W mode or variable pitch mode.
17 WDCK O 1, 0 Word clock output. f = 2Fs. GRSCOR is output by the command switching.
18 DVSS0 — — Digital GND.
19 COUT I/O 1, 0 Track count signal I/O.
20 MIRR I/O 1, 0 Mirror signal I/O.
21 DFCT I/O 1, 0 Detect signal I/O.
22 FOK I/O 1, 0 Focus OK signal I/O.
23 PWMI I Spindle motor external control input.
24 LOCK I/O 1, 0 GFS is sampled at 460Hz; when GFS is high, this pin outputs a high signal. If GFS is low eight consecutive samples, this pin outputs low. Input when LKIN = 1.
25 MDP O 1, Z, 0 Spindle motor servo control output.
26 SSTP I Disc innermost track detection signal input.
27 FSTO O 1, 0 2/3 frequency division output for XTAI pin.
28 DVDD1 — — Digital power supply.
29 SFDR O 1, 0 Sled drive output.
30 SRDR O 1, 0 Sled drive output.
31 TFDR O 1, 0 Tracking drive output.
32 TRDR O 1, 0 Tracking drive output.
33 FFDR O 1, 0 Focus drive output.
34 FRDR O 1, 0 Focus drive output.
35 DVSS1 — — Digital GND.
36 TEST I Test. Normally, GND.
37 TES1 I Test. Normally, GND.
38 VC I Center voltage input.
39 FE I Focus error signal input.
40 SE I Sled error signal input.
41 TE I Tracking error signal input.
42 CE I Center servo analog input.
43 RFDC I RF signal input.
44 ADIO O Analog Test. No connected.
45 AVSS0 — — Analog GND.
46 IGEN I Constant current input for operational amplifi er.
47 AVDD0 — — Analog power supply.
48 ASYO O 1, 0 EFM full-swing output. (low = Vss, high = VDD)
49 ASYI I Asymmetry comparator voltage input.
50 RFAC I EFM signal input.
51 AVSS1 — — Analog GND.
52 CLTV I Multiplier VCO1 control voltage input.
53 FILO O Analog Master PLL fi lter output (slave = digital PLL).
54 FILI I Master PLL fi lter input.
55 PCO O 1, Z, 0 Master PLL charge pump output.
56 AVDD1 — — Analog power supply.
57 BIAS I Asymmetry circuit constant current input.
58 VCTL I Wide-band EFM PLL VCO2 control voltage input.
Wide-band EFM PLL VCO2 oscillation output. Serves as wide-band EFM
59 V16M I/O 1, 0 PLL clock input by switching with the command.
60 VPCO O 1, Z, 0 Wide-band EFM PLL charge pump output.
61 DVDD2 — — Digital power supply.
62 ASYE I Asymmetry circuit on/off (low = off, high = on).
63 MD2 I Digital Out on/off control (low = off, high = on).
64 DOUT O 1, 0 Digital Out output.
65 LRCK O 1, 0 D/A interface. LR clock output. f = Fs
66 PCMD O 1, 0 D/A interface. Serial data output (two's complement, MSB fi rst).
67 BCK O 1, 0 D/A interface. Bit clock output. Outputs a high signal when the playback disc has emphasis, and a low
68 EMPH O 1, 0 Outputs a high signal when the playback disc has emphasis, and a low signal when there is no emphasis.
69 XTSL I Crystal selection input. Low when the crystal is 16.9344MHz; high when it is 33.8688MHz.
70 DVSS2 — — Digital GND.
71 XTAI I Crystal oscillation circuit input. When the master clock is input externally,input it from this pin.
72 XTAO O Crystal oscillation circuit output.
73 SOUT O 1, 0 Serial data output in servo block.
74 SOCK O 1, 0 Serial data readout clock output in servo block.
75 XOLT O 1, 0 Serial data latch output in servo block.
76 SQSO O 1, 0 Sub-Q 80-bit, PCM peak or level data outputs. CD TEXT data output.
77 SQCK I SQSO readout clock input.
78 SCSY I GRSCOR resynchronization input.
79 SBSO O 1, 0 Sub-Q P to W serial output.
80 EXCK I SBSO readout clock input.
Notes)
PCMD is a MSB fi rst, two’s complement output.
XUGF is the frame sync obtained from the EFM signal, and is negative pulse. It is the signal before sync protection.
XPCK is the inverse of the EFM PLL clock. The PLL is designed so that the falling edge and the EFM signal transition
point coincide.
The GFS signal goes high when the frame sync and the insertion protection timing match.
C2PO represents the data error status.
Q116 : CXD3068Q
8. MICROPROCESSOR AND IC DATA
29
HD74LV157A
Inputs Output STB SEL A B
H X X X L L L L X L L L H X H L H X L L L H X H H
H : High
L : Low
X :
13
14
11
12
15
16
9
10
VCC
4A
STB
4B
4Y
3A
1
2
3
4
5
6
7
8
SEL
1A
1B
1Y
2A
2B
2Y
GND
3B
3Y
A GS
B A
Y B
A Y
B A
Y BY
D / AI n t e r f a c e
E r r o rC o r r e c t o r
3 2 KRAM
D i g i t a lOUT
S u b C o d eProcessor
C l o c kG e n e r a t o r
A s y m m e t r yC o r r e c t o r
D i g i t a lP L L
D i g i t a lCLV
CPUI n t e r f a c e
S e r v oA u t o
Sequencer
RFAC
ASYO
ASYE
B I A S
XPCK
FI L O
FI L I
PCO
CL TV
MDP
L OCK
SENS
DATA
XL AT
CL OK
SCOR
SBSO
EXCK
SCSY
SQSO
SQCK
XRST
TEST
TES1
PWMI
ASYI
FSTO
C4 M
SERVOI n t e r f a c e
MIRRDFCTFOK
SERVO DSP
FOCUS SERVO
TRACKINGSERVO
SLED SERVO
PWM GENERATOR
FOCUS PWMGENERATOR
TRACKING PWMGENERATOR
SLED PWMGENERATOR
RFDC
CE
TE
SE
FE
VC
I G E N
OPAmpA n a l o g S W
A / DC o n v e r t e r
AD
IO
FFDR
FRDR
TFDR
TRDR
SFDR
SRDR
SOUT
SOCK
XOL T
SCL K
COUT
SSTP
ATSK
MIRR
DFCT
FOK
XT
AI
XT
AO
XT
SL
V1
6M
VP
CO
VC
TL
MU
TE
BC
K
PC
MD
LR
CK
C2
PO
WD
CK
DOUT
MD2
WF
CK
EM
PH
GF
S
XU
GF
EFMdemodura to r
1 6
2 7
5 0
4 8
4 9
5 7
6 2
1 2
2 3
2 4
2 5
5 2
5 3
5 4
5 5
4
5
6
7
1 5
7 6
7 7
7 8
7 9
8 0
4 0
3 9
3 8
4 1
4 2
4 3
4 4
4 62 9
3 0
3 4
3 1
3 2
3 3
8
9
1 9
2 0
2 1
2 2
2 6
7 3
7 4
7 5
2
3 7
3 6
31 41 7 6 76 5 6 61 01 1 1 3 6 85 85 9 6 06 97 1 7 2
6 3
6 4
Signal processor block
Servo block
Q116 : CXD3068Q
30
Q101 : CXD1881R
Pin Description
Power Supply Pins
Name Type Description VPA — Power supply pin for the RF block and serial port VPB — Power supply pin for the servo block VNA — Ground pin for the RF block and serial port VNB — Ground pin for the servo block V33 — Power supply pin for the output buffers V25 — Reference power supply for the servo output
Input Pins
Name Type Description DVDRFP, DVDRFN I RF SIGNAL INPUTS: Differential RF signal attenuator input pins. RFSIN I RF SIGNAL INPUT: Single-ended RF signal attenuator input pin. AIP, AIN I AGC AMPLIFIER INPUTS: Differential AGC amplifi er input pins. DIP, DIN I ANALOG INPUTS FOR RF SINGLE BUFFER: Differential analog inputs to the RF single-end output buffer
and full wave rectifi er. A, B, C, D I PHOTO DETECTOR INTERFACE INPUTS: Inputs from the main beam photo detector matrix outputs. A2, B2, C2, D2 I PHOTO DETECTOR INTERFACE INPUTS: AC coupled inputs for the DPD from the main beam photo
detector matrix outputs. CD_A, B, C, D I CD PHOTO DETECTOR INTERFACE INPUTS: CD_A, B, C, D come from the CD main beam photo detector
matrix outputs. CD_E, F I CD PHOTO DETECTOR INTERFACE INPUTS: CD side beam photo dector outputs and used for the CD
tracking detection. MIN I RF SIGNAL INPUT FOR MIRROR: AC coupled inputs for the mirror dection circuit from MEVO. DVDPD I APC INPUT: DVD APC input pin from the monitor photo diode. CDPD I APC INPUT: CD APC input pin from the monitor photo diode. LDON I APC OUTPUT ON/OFF: APC output control pin. A high level activates LD output. (open low) LINK I LINKING SIGNAL INPUT PIN: In the linking area, this pin goes high and the Mirror and TE outputs are
disabled, when the link signal is enabled. (open low)
Output Pins
Name Type DescriptionATOP, ATON O DIFFERENTIAL ATTENUATOR OUTPUTS: Attenuator outputs.FNP, FNN O DIFFERENTIAL NORMAL OUTPUTS: Filter normal outputs.RFAC O SINGLE-ENDED NORMAL OUTPUT: Single-ended RF output.RFDC O RF SIGNAL OUTPUT: Single-ended RF summing output reference to VPB-2.4 (V).FE O FOCUSING ERROR SIGNAL OUTPUT: Focus error output reference to V125.TE O TRACKING ERROR SIGNAL OUTPUT: Tracking error output reference to V125.CE O CENTER ERROR SIGNAL OUTPUT: Center error output reference to V125.MEVO O RFDDC BOTTOM ENVELOPE OUTPUT: Bottom envelope, PI or bottom clamped RF envelope signal output for
mirror detection.DFT O DEFECT OUTPUT: CMOS output (V33 or VPB). When the PI signal level is below the detection level or when
the RF signal level is below the detection level, the DFT output goes high. This output is selected by serial port.MIRR O MIRROR DETECT OUTPUT: Mirror detect comparator output. CMOS output (V33 or VPB).PI O PULL-IN SIGNAL OUTPUT: The summing signal output of A, B, C, D, or CD_A, B, C, D. Reference to V25/3.DVDLD O APC OUTPUT: DVD APC output pin to control the laser power.CDLD O APC OUTPUT: CD APC output pin to control the laser power.MNTR O MONITOR OUTPUT: Monitor output signal is selected by PIOR bit7-5.
Serial Port Pins
Name Type DescriptionSDEN I SERIAL DATA ENABLE: Serial enable CMOS input. A high level input enables the serial port. (not to be left open)SDATA I/O SERIAL DATA: Serial data bidirectional CMOS pin(V33 or VPA). NRZ programming data for the internal registers is
applied to this input. (not to be left open)SCLK I SERIAL CLOCK: Serial clock CMOS input. The clock applied to this pin is synchronized with the data applied to SDATA.
(not to be left open)
31
Analog Pins
Name Type DescriptionBYP — The RF AGC integration capacitor CBYP, is connected between BYP and VPA.CP — DIFFERENTIAL PHASE TRACKING LPF PIN: The external capacitance is connected between CN.CN — DIFFERENTIAL PHASE TRACKING LPF PIN: The external capacitance is connected between CP.LCP — LENS SHIFT OFFSET CANCEL LPF PIN: The external capacitance is connected between LCN.LCN — LENS SHIFT OFFSET CANCEL LPF PIN: The external capacitance is connected between LCP.MP — MIRR TOP HOLD PIN: The external capacitance is connected to VPB.MB — MIRR BOTTOM HOLD PIN: The external capacitance is connected to VPB.MEV — RFDC BOTTOM ENVELOPE PIN: The external capacitance is connected to VPA.MLPF — MIRROR LPF PIN: An external capacitance is connected to VPB.TPH — PI TOP HOLD PIN: An external capacitance is connected to VPB.VC — REFERENCE VOLTAGE OUTPUT: This pin provides the DC bias reference voltage (VPB/2). Output impedance is less
than 50 Ω.V125 — REFERENCE VOLTAGE OUTPUT: DC bias voltage output and it is also used for servo output reference. (V25/2)RX — REFERENCE RESISTOR INPUT: An external 12.0 k&, 1 % resistor is connected from this pin to ground to establish a
precise PTAT (proportional to absolute temperature) reference current for the fi lter.
DVDRFP
DVDRFN
RFS I N
ATO
P
ATO
N
AIN
AIP
FNP
DIN
DIP
RFA
C
FNN
MUX
I NPUTB I AS
ATT
6 3
A 1 2
CD_A 1 6
B 1 1
CD_B 1 5
C 1 0
CD_C 1 4
D
CD_D 1 3
CD_E 1 8
CD_ F 1 7
2
9
A2 3
1
I NPUTSEL I NPUT I MP
SEL
2 I NPUT I MPSEL
2
2
4
ATT
6 2 6 1 6 0 5 9
AGCPROGRAMMABLE
EQUAL I ZERF I L TER
D I FFERENT I ATOR
AGCO
5 3 5 2
SSOUTC l amp& En v
L e v e lDACS I GDET
FUL L WAVERECT I F I ER
OUTPUT I NH I B I TFROM S - PORT
5 5 5 4 5 7
5 6
AGCCHARGE
PUMP
FAST A t t a c k o f f
AGC HOLD
B+D
A+C
A+D
B+C
MUX
D
C
B
AGCA
GCA
GCA
GCA
GCA
GCA
GCA
GCA
W / LPF
W / LPF
W / LPF
W / LPF
SUMAmp .
1 2 dB i s a d d e d@ h i g h g a i n mo d e
1 2 dB i s a d d e d@ h i g h g a i n mo d e
6 dB i s a d d e d@ h i g h g a i n mo d e
1 2 dB i s a d d e d@ h i g h g a i n mo d e
3
3 4
FROMS - PORT
FROMS - PORT
FROMS - PORT
FROMS - PORT
CD / DVD
GCA
4 dBO f f s e tc a n s e l
LPF GCA
7 0 kHz 6 dB , 4 b i t
6 dB , 4 b i t
4 dB
4
4
FROMS - PORT
FROMS - PORT
5
O f f s e tc a n s e l
LPF
7 0 kHz
FROMS - PORT
FROMS - PORT
FROMS - PORT
FROMS - PORT
5
TOPHLDBCA DET
- 6dB @ n o r ma l
COMP
P l l
SEL
BYP
4 9 RX
4 0 FE
3 8 P I
3 5 TPH
3 4 DFT
RFDC
DAC2
Bu f f 6 1
CE4 1
MNTR
TOPHOLD
TOPHOLD 6 dBAmp
O f f s e tc a n s e l
GCA
GCA SEL
MNTRCn t r l
P IFETECE
V2 5V1 2 5
V2 5 / 3
4 2
LCP4 4
LCN4 3
TE
CP
LPFATTPo l s e l .b u f f ( -12 dB )
HLDEN
3
3
CE - ATT
CEPOL
+ 3 dBGCA
GCA
GCA
7
CN8
O f f s e tc a n s e l
LPF GCASUBMUX TE
RST3 9
V2 53 7
V1 2 53 6
VC2 0
SDEN4 8
SDATA4 7
SCLK4 6
V3 34 5
FROMS - PORT
6
CEFDBCD / DVDCP / CNL ow l mp
EQ
B2 4
C2 5
D2
CDPD
6
GCA
GCA
GCA
PHASEDETECTOR
PHASEDETECTOR
EQ
EQ
EQ
33VC
Comp .
V2 5 /2
f o r s e r v o o u t p u t r e f .
VC=VPB / 2
VCI f o r s e r v o i n p u t
SER I AL PORTREG I STER
V3 3 f o ro u t p u t b u f f
MIR
R
2 7
LIN
K
VP
A
5 8
VP
B
1 9
VN
A
5 1
VN
B
2 53 3
MB
2 9
MP
2 8
ML
PF
3 0
MIN
3 1
ME
VO
3 2
ME
V
L I NKEN
M I RRCOMP
Comph y s & o f f s e tF r om S - p o r t
CONTROLS i g n a l sT o e a c h b l o c k
PEAK /BOTTOM
HOLD I n t e r n a lFDCHG
D i s k d e t &M i r r LPFF r om S - p o r t
2
2
2
M i r r g a i nF r om S - p o r t
I NPUTBUFF
I n p u t l mpF r om S - p o r t
MUX
P l l
5 0
DV
DL
D
2 1
CD
LD
2 2
LD
ON
2 6
BOTTOMENVELOPE
AGCO
S i n k c u r r e n tF r om S - p o r t
Du a l APC
2 4
DVDPD 2 3
APC SELDVD / CD
F r om S - p o r tLD H / L
Q101 : CXD1881R
32
Pin Symbol I/O Description No.1 VSC — Core GND.2 XMSLAT I Latch input for microcomputer serial communication. The address and data are atched at the fall of this pin.3 MSCK I Shift clock input for microcomputer serial communication. The serial input data is loaded and shifted at the rise
of the clock input to this pin. During readout, the readout data changes at the fall of the clock input to this pin. 4 MSDATI I Data input for microcomputer serial communication. The data and address are serially input from the
microcomputer.5 VDC — Core power supply. Supply +2.5V.6 MSDATO O Data output for microcomputer serial communication. Hi-Z other than during output.7 MSREADY O Output ready fl ag for microcomputer serial communication. Low output when ready. Open drain.8 XMSDOE O Output enable for microcomputer serial communication. When an external tri-state buffer is used, the buffer is
activated by this pin. Low during MSDATO output.9 XRST I Reset. The entire IC is reset when low. However, the clock output from the EXCKO1, EXCKO2 and LRCK output
pins does not stop even when reset.10 SMUTE I Soft mute. Audio output is soft muted when high; mute off when low.11 MCKI I Master clock input. Input a 768Fs (33.8688MHz) clock.12 VSIO — I/O GND.13 EXCKO1 O External output clock 1. 768Fs/512Fs/256Fs/128Fs is output according to the setting.14 EXCKO2 O External output clock 2. 768Fs/512Fs/256Fs/128Fs is output according to the setting.15 LRCK O 1Fs (44.1kHz) clock output.16 FRAME O Frame signal output.17 VDIO — I/O power supply. Supply +3.3V.18 MNT0 O Monitor output. Outputs a part of internal operation according to the microcomputer setting.19 MNT1 O Monitor output. Outputs a part of internal operation according to the microcomputer setting.20 MNT2 O Monitor output. Outputs a part of internal operation according to the microcomputer setting.21 MNT3 O Monitor output. Outputs a part of internal operation according to the microcomputer setting.22 TESTO O Test output. Leave open.23 TESTO O Test output. Leave open.24 TESTO O Test output. Leave open.25 TESTO O Test output. Leave open.26 TCK I Test clock input. Fix to low.27 TDI Ipu Test input (pulled up). Leave open.28 VSC — Core GND.29 TDO O Test output. Leave open.30 TMS Ipu Test input (pulled up). Leave open.31 TRST Ipu Test reset (pulled up). Input the power-on reset signal or fi x to low.32 TEST1 I Test input. Fix to low.33 TEST2 I Test input. Fix to low.34 TEST3 I Test input. Fix to low.35 VDC — Core power supply. Supply +2.5V.36 TESTO O Test output. Leave open.37 XBIT O DST related monitor. No connected. For detailed information, see the DST_X_Bit item in Part 3 of the SACD
Format Book.38 SUPDT0 O Supplementary data output. (LSB)39 SUPDT1 O Supplementary data output.40 SUPDT2 O Supplementary data output.41 SUPDT3 O Supplementary data output.42 VSIO — I/O GND.43 SUPDT4 O Supplementary data output.44 SUPDT5 O Supplementary data output.45 VDIO — I/O power supply. Supply +3.3V.46 SUPDT6 O Supplementary data output.47 SUPDT7 O Supplementary data output. (MSB)48 XSUPAK O Supplementary data acknowledge output.49 VSC — Core GND.50 TESTO O Test output. Leave open.51 TESTI I Test input. Fix to low.52 TESTI I Test input. Fix to low.53 TESTO O Test output. Leave open.54 VDC — Core power supply. Supply +2.5V.55 TESTO O Test output. Leave open.56 TESTO O Test output. Leave open.57 BCKASL I Bit clock input/output selection for DSD data output. Low = input (slave), high = output (master).58 VSDSD — DSD data output GND.59 BCKAI I Bit clock input for DSD data output. Input the bit clock to this pin when BCKASL = low.60 BCKAO O Bit clock output for DSD data output. The bit clock is output from this pin when BCKASL = high.
Q123 : CXD2752R
33
61 PHREFI I Phase reference signal input for DSD output phase modulation.62 PHREFO O Phase reference signal output for DSD output phase modulation.63 ZDFL O Lch zero data detection fl ag (when set by the microcomputer). Goes high when silent data continues for 300ms.64 DSAL O Lch DSD data output.65 ZDFR O Rch zero data detection fl ag (when set by the microcomputer). Goes high when silent data continues for 300ms.66 DSAR O Rch DSD data output.67 VDDSD — Power supply for DSD data output. Supply +3.3V separated from other digital power supplies.68 ZDFC O Cch zero data detection fl ag (when set by the microcomputer). Goes high when silent data continues for 300ms.69 DSAC O Cch DSD data output.70 ZDFLFE O LFEch zero data detection fl ag (when set by the microcomputer). Goes high when silent data continues for
300ms.71 DSALFE O LFEch DSD data output.72 VSDSD — GND for DSD data output.73 ZDFLS O LSch zero data detection fl ag (when set by the microcomputer). Goes high when silent data continues for
300ms.74 DSALS O LSch DSD data output.75 ZDFRS O RSch zero data detection fl ag (when set by the microcomputer). Goes high when silent data continues for
300ms.76 DSARS O RSch DSD data output.77 VDDSD — Power supply for DSD data output. Supply +3.3V separated from other digital power supplies.78 TESTO O Test output. Leave open.79 TESTO O Test output. Leave open.80 VSC — Core GND.81 TESTO O Test output. Leave open.82 TESTO O Test output. Leave open.83 VDC — Core power supply. Supply +2.5V.84 TESTO O Test output. Leave open.85 TESTO O Test output. Leave open.86 VSIO — I/O GND.87 TESTO O Test output. Leave open.88 TESTI I Test input. Fix to low.89 TESTI I Test input. Fix to low.90 VDIO — I/O power supply. Supply +3.3V.91 TESTO O Test output. Leave open.92 TESTO O Test output. Leave open.93 TESTO O Test output. Leave open.94 VSC — Core GND.95 TESTI I Test input. Fix to high.96 TESTI I Test input. Fix to low.97 TESTI Ipu Test input. Fix to high.98 TESTO O Test output. Leave open.99 VDC — Core power supply. Supply +2.5V.
100 TESTI I Test input. Fix to low. 101 TESTI I Test input. Fix to low. 102 TESTI I Test input. Fix to low. 103 TESTI I Test input. Fix to low. 104 TESTI I Test input. Fix to low. 105 TESTI I Test input. Fix to low. 106 VSIO — I/O GND.107 TESTI I Test input. Fix to low. 108 TESTI I Test input. Fix to low. 109 TESTI I Test input. Fix to low.110 VDIO — /O power supply. Supply +3.3V.111 WAD0 I External A/D data input for PSP physical disc mark detection. (LSB) This is used only when not using the
internal A/D converter and connecting an external A/D converter.112 WAD1 I External A/D data input for PSP physical disc mark detection. 113 WAD2 I External A/D data input for PSP physical disc mark detection. 114 WAD3 I External A/D data input for PSP physical disc mark detection. 115 VSIO — I/O GND.116 VSC — Core GND.117 WAD4 I External A/D data input for PSP physical disc mark detection. 118 WAD5 I External A/D data input for PSP physical disc mark detection. 119 WAD6 I External A/D data input for PSP physical disc mark detection. 120 WAD7 I External A/D data input for PSP physical disc mark detection. (MSB) 121 VDC — Core power supply. Supply +2.5V.122 TESTI I Test input. Fix to low.123 WCK I Operating clock for PSP physical disc mark detection. Input the PLL clock corresponding to 1T of RF. 124 WAVDD — A/D power supply for PSP physical disc mark detection. Input +2.5V separated from the digital block.125 WAVDD — A/D power supply for PSP physical disc mark detection. Input +2.5V separatedfrom the digital block.
34
126 WARFI Ai Analog RF signal input for PSP physical disc mark detection. The full scale is 0.0 to 2.5V. (typ.) 127 WAVRB Ai A/D bottom reference for PSP physical disc mark detection. The voltage input to this pin is set to bottom level of
the A/D converter.128 WAVSS — A/D GND for PSP physical disc mark detection. 129 WAVSS — A/D GND for PSP physical disc mark detection. 130 VSIO — I/O GND.131 DQ7 I/O SDRAM data I/O. (MSB) 132 DQ6 I/O SDRAM data I/O. 133 DQ5 I/O SDRAM data I/O. 134 DQ4 I/O SDRAM data I/O. 135 VDIO — I/O power supply. Supply +3.3V. 136 DQ3 I/O SDRAM data I/O.137 DQ2 I/O SDRAM data I/O. 138 DQ1 I/O SDRAM data I/O. 139 DQ0 I/O SDRAM data I/O. (LSB) 140 VSIO — I/O GND.141 DCLK O SDRAM clock output.142 DCKE O SDRAM clock enable output.143 XWE O SDRAM write enable output. Connect to the XWE pin of the SDRAM.144 XCAS O SDRAM column address strobe output. Connect to the CAS pin of the SDRAM. 145 XRAS O SDRAM row address strobe output. Connect to the RAS pin of the SDRAM. 146 VDIO — I/O power supply. Supply +3.3V.147 TESTO O Test output. Leave open. 148 A11 O SDRAM address output. (MSB) 149 A10 O SDRAM address output. 150 VSC — Core GND.151 A9 O SDRAM address output.152 A8 O SDRAM address output.153 VDC — Core power supply. Supply +2.5V.154 A7 O SDRAM address output.155 A6 O SDRAM address output. 156 A5 O SDRAM address output. 157 A4 O SDRAM address output. 158 VSIO — I/O GND.159 A3 O SDRAM address output. 160 A2 O SDRAM address output. 161 A1 O SDRAM address output. 162 A0 O SDRAM address output. (LSB) 163 VDIO — I/O power supply. Supply +3.3V.164 XSRQ O Output for data request to front-end processor.165 XSHD I Input for header fl ag output from front-end processor.166 SDCK I Input for data transfer clock output from front-end processor. 167 XSAK I Input for data valid fl ag output from front-end processor. 168 SDEF I Input for error fl ag output from front-end processor.169 SD0 I Input for stream data from front-end processor. (LSB) 170 SD1 I Input for stream data from front-end processor. 171 SD2 I Input for stream data from front-end processor. 172 SD3 I Input for stream data from front-end processor. 173 SD4 I Input for stream data from front-end processor. 174 SD5 I Input for stream data from front-end processor. 175 SD6 I Input for stream data from front-end processor. 176 SD7 I Input for stream data from front-end processor. (MSB)
Ipu: pulled-up input, Ipd: pulled-down input, Ai: analog input
Q123 : CXD2752R
35
WARF I
WAD [ 7 : 0 ]
WCK
DQ [ 7 : 0 ]
A [ 1 1 : 0 ]
DCLK
DCKE
XWE
XCAS
XRAS
SD [ 7 : 0 ]
XSHD
XSAK
SDEF
XSRQ
A / D
P S P D a t a D e t e c t i o n
D S T D e c o d e r
F a d e r
S u p p l e m e n t a r y D a t a I n t e r f a c e
A u d i o I n t e r f a c e
Mic rocompu te r I n t e r f a c e C l o c k
S t r e a m M a n a g e r
DSARS
DSALS
DSAL FE
DSAC
DSAR
DSAL
PHREFO
PHREF I
BCKA I
BCKAO
ZDF
XSUPAK
SUPDT [ 7 : 0 ]
SMU
TE
FRAM
E
LRC
K
EX
CKO
2
EX
CKO
1
XMS
DOE
MS
RE
AD
Y
MS
DA
TO
MS
DA
TI
MS
CK
XMS
LAT
MC
KI
Q123 : CXD2752R
36
Q124 : CXD1882R
Pin DescriptionThe pin descriptions by function are given below.
1. Read Channel Block (22 pins)1-1. PLL (8 pins) (1) PDHVCC (VC input for PD Hi-Z output)
Midpoint potential input for RFPLL. If the HPDVC bit (bit 6) of the RFPLL1 register (E0h) is set to “1”, the voltage input to this pin is output from the PDO pin when the PDO pin output is other than VCC or GND. This pin sharpens the PDO pin output waveform in order to reduce phase deviation.
(2) PDO (phase detector output: output) Phase comparator charge pump output. (3) FDO (frequency detector output: output) Frequency comparator charge pump output. (4) LPF1 (PLL LPF1: input) Inverted input of the operational amplifi er of the PLL loop fi lter. (5) LPF2 (PLL LPF2: input)
When the LPFTGN bit (bit 0) of the LOOPFCTL register (EAh) is set to “1”, this pin is connected to the inverted input of the operational amplifi er of the PLL loop fi lter. It is used to switch the PLL loop gain.
(6) LPF5 (PLL LPF5: output) Output of the operational amplifi er of the PLL loop fi lter. (7) VCOIN (VCO input: input)
VCO input. When using the built-in operational amplifi er, the output of the second operational amplifi er of the loop fi lter is connected to this pin.
(8) VCOR1 (VCO resistor: input)Connects the VCO oscillation range setting resistor. The setting resistor is connected between his pin and GND. When R2 is increased, the minimum oscillation frequency is reduced.
1-2: RF binary setting (6 pins) (1) RFDCC (RF DC cut control: input)
Input for adjusting the RF signal DC cut HPF. A resistor is connected between this pin and the midpoint potential in order to raise the HPF cut-off frequency in areas other than the linking section.
(2) ASF[2:1] (asymmetry compensation fi lter: output)Connects the fi lter for switching the asymmetry compensation time constant in the linking section.
(3) DASYO (data output of asymmetry compensation circuitry: output)
RF binary signal output. (4) DASYI (data input of asymmetry compensation circuitry: input)
Input for the analog signal obtained by integrating the RF binary signal.
(5) RFIN (RF input: input) RF signal input.1-3. CLV (6 pins) (1) MDSOUT (MDS output: output) Built-in CLV circuit frequency error output. (2) MDPOUT (MDP output: output) Built-in CLV circuit phase error output. (3) MDPIN[2:1] (MDP input: input)
MDP inputs. The input from these two pins is switched by the MDPSL bit (bit 0) of the SPDLCTL register (E8h). MDSOUT and MDPOUT are synthesized as analog values and input to one of these pins. A spindle control signal generated by an external spindle control circuit is input to the other pin.
(4) SPO (spindle control output: output)Spindle control output. It attenuates and outputs the signal input from MDPIN.
(5) CLVS (CLVS control output: output)Control output for switching the spindle control fi lter constant in CLVS mode.
1-4. Other pins (2 pins) (1) LINK/DEFECT (LINK monitor/DEFECT: input/output)
LINK signal monitor output or DEFECT input signal. The signal is switched by the LNDFT bit (bit 7) of the MNTRPIN register ($Efh). For LINK output, this pin is set high in the linking section
processing mode for DVD + RW discs. For DEFECT input, an external high signal is input during the DEFECT period.
(2) APEO (absolute phase error: output)Absolute phase error signal. It is integrated and used to evaluate the quality of the read channel.
2. CD-ROM Interface (12 pins)Interface between this IC and a Sony CD signal processing IC such as the CXD3011R. (1) MDAT (medium data: input)
Serial data stream from the CD signal processing IC (hereafter referred to as “CD DSP”).
(2) BCLK (bit clock: input)Bit clock input signal from the CD DSP. It strobes the MDAT signal.
(3) LRCK (LR clock: input)LR clock input signal from the CD DSP. It indicates MDAT signal left channel and right channel.
(4) C2PO (C2 pointer: input)C2 pointer input signal from the CD DSP. It indicates that the MDAT signal contains an error.
(5) WFCK (write frame clock: input)Write frame clock input signal from the CD DSP.
(6) SCOR (subcode sync OR: input)Subcode sync input signal from the CD DSP.
(7) SBIN (subcode serial input: input)Subcode serial input signal from the CD DSP.
(8) EXCK (external clock: output)Clock output for reading the SBIN signal which is sent to the CD DSP.
(9) GRSOR (guard SCOR: input)Guarded SCOR input signal from the CD DSP.
(10) XRCI (RAM overfl ow input: input)CD DSP RAM overfl ow input signal.
3. Buffer Memory Interface (32 pins)This interface can be connected with a 4M-bit or 16M-bit EDO DRAM. Note that the bus width is 16 bits. (1) XMWR (DRAM write enable: output)
DRAM write enable negative logic output signal. (2) XCAS (column address strobe: output) Column address strobe negative logic output signal. (3) XRAS (row address strobe: output) Row address strobe negative logic output signal. (4) XMOE (memory output enable: output) DRAM output enable negative logic output signal. (5) MA[11:0] (DRAM address: output)
DRAM address outputs. When connected to a 4M-bit DRAM, the MA[11:9] pins can be used as monitor pins.
(6) MDB[F:0] (DRAM data bus: input/output) DRAM data bus.
4. Sub CPU Interface (22 pins) (1) XWR (sub CPU write: input) Strobe negative logic input signal for writing internal registers. (2) XRD (sub CPU read: input)
Strobe negative logic input signal for reading internal register status.
(3) D[7:0] (sub CPU data bus: input/output) 8-bit data bus. (4) A[7:0] (sub CPU address: input)
Address input signals for selecting internal registers from the sub CPU.
(5) XINT0, 1 (sub CPU interrupt: output)Interrupt request negative logic output signals for the sub CPU. Interrupt requests from the decoder block and authentication block are output from the XINT0 pin. Interrupt requests from the read channel block are output from the XINT1 pin. These are open drain outputs.
(6) XCS (chip select: input)Chip select negative logic signal from the sub CPU.
(7) XWAT (wait: output)Negative logic output wait signal used by the sub CPU to access the buffer memory.
37
5. Host Interface (31 pins)Pin symbols are listed in the order of ATAPI mode, DMA mode and AV mode. Pull up means that the pin should be pulled up by a resistor, “0” means low level output, and nc means No Connect. (1) HCS0 (HOST chip select: input)/nc/nc
This pin is pulled up by a resistor.ATAPI: Chip select negative logic input signal from the host.This is connected with the CS1FX pin of the ATAPI interface.DMA/AV: This pin is not used.
(2) HCS1 (HOST chip select: input)/nc/ncThis pin is pulled up by a resistor.ATAPI: Chip select negative logic input signal from the host.This is connected with the CS3FX pin of the ATAPI interface.DMA/AV: This pin is not used.
(3) HA[2:0] (HOST address: input)/pull up/pull upATAPI: Address input signal for selecting internal registers from the host.DMA/AV: This pin is not used, and should be pulled up by a resistor.
(4) XHRD (HOST read: input)/XHRD (HOST read: output)/ XSHDR0 (sector header 0: output)ATAPI: Strobe negative logic input signal for reading data from the host.DMA: Strobe negative logic input signal for reading data to the host.AV: Negative logic output signal indicating the lead byte of the sector.
(5) XHWR (HOST write: input)/XHWR (HOST write: output)/DCK (data clock: output)ATAPI: Strobe negative logic input signal for writing data from the host.DMA: Strobe negative logic output signal for writing data to the host.AV: Clock output for data transfer.
(6) XHAC (HOST DMA acknowledge: input)/HDRQ (HOST DMA request: input)/REQUEST (request:input)This pin is pulled up by a resistor.ATAPI: DMA acknowledge negative logic input signal from the host.DMA: DMA request input signal from the host.AV: Data transfer request input signal.
(7) DASP (drive active/slave present: input/output)/pull up/pull upATAPI: Negative logic signal indicating that a slave drive is present or a drive is active; open drain signal.DMA/AV: This pin is not used, and should be pulled up by a resistor.
(8) HDB[F:0] (HOST data bus: input/output)/HDB[F:0] (HOST data bus: input/output)/7 “0”, XVFLAG,DATA[7:0] (“0”, video error fl ag, data: output)ATAPI/DMA: 16-bit host data bus.AV: Low level is output from the upper 7 bits. The 8th bit from the upper side is an error fl ag output signal corresponding to the lower 8 bits. The lower 8 bits are video data output signals.
(9) HDRQ (HOST DMA request: output)/XHAC (HOST DMA acknowledge: output)/XACK (acknowledge:output)ATAPI: DMA data request positive logic output signal to the host; tri-state signal.DMA: DMA acknowledge negative logic output signal to the host.AV: Data transfer acknowledge negative logic output signal.
(10) HINT (HOST interrupt: output)/pull up/pull upATAPI: Interrupt request positive logic output signal to the host; tri-state signal.DMA/AV: This pin is not used, and should be pulled up by a resistor.
(11) XS16 (16-bit data transfer: output)/pull up/pull upATAPI: Negative logic signal indicating that a 16-bit data port has been selected; open drain signal. This is connected with the IOCS16 pin of the ATAPI interface.DMA/AV: This pin is not used, and should be pulled up by a resistor.
(12) REDY (I/O channel ready: output)/pull up/pull upATAPI: Positive logic signal which is negated when a drive is
not ready to respond to a data transfer request; open drain signal. This is connected with the IORDY pin of the ATAPI interface.DMA/AV: This pin is not used, and should be pulled up by a resistor.
(13) XPDI (passed diagnostics: input/output)/pull up/pull upATAPI: Negative logic signal indicating that diagnostics of the slave drive have been completed; open drain signal. This is connected with the PDIAG pin of the ATAPI interface.DMA/AV: This pin is not used, and should be pulled up by a resistor.
(14) XHRS (HOST reset: input)/nc/ncATAPI: Reset negative logic signal from the host; pulled up by a resistor.DMA/AV: This pin is not used
38
1 61 71 8 1 9 2 0 2 1
2 3
4 6
4 8
4 9
5 1
5 3
5 4
5 5
5 7
6 2
6 3
6 5
7 6 7 8 9 1 9 2 9 39 49 5
1 0 7
1 0 9
1 1 1 1 1 3 1 1 4 1 1 5
1 1 6
1 1 7
1 2 0
1 2 1
1 2 4
1 2 5
1 2 6
1 2 7
1 3 0
1 3 1
1 3 2
1 3 5
1 3 6
1 3 7
1 3 8
1 4 0
1 4 2
1 4 4
1 4 6
1 4 7
1 4 8
1 5 0
1 5 1
1 5 3
1 5 5
1 5 7
1 5 8
1 6 0
1 5 9
1 6 2
1 6 3 1 6 4
1 6 7
1 6 9
1 7 0
RFDCC RFA s ymme t r y
PL L
VCO
S p i n d l eC o n t r o l
CD -DSP I / F
DACI / F
DMA Co n t r o l l e r( P r i o r i t y r e s o l v e & S e q u e n c e r )
DMAF I FO
HOSTI / F
ATAP Io r
DMAo r
V i d e o
ATAP IR e g i s t e r s
ATAP IPa c k e tF I FO
I n t e r n a l C l o c k
DVDMa i n Da t a
ECC & EDC
SYNC De t e c t
EFM +D e m o d u l a t o r
Se c t o r I DDe t e c t
CD - ROMMa i n Da t a
ECC & EDC
D e s c r a m b l e
Su b c o d eD e i n t e r l e a v e & E C C
S Y N C C o n t r o l
CD ESP
Au t h e n t i c a t i o n CPU I / F , DMA Co n t r o l l e r
DA
SYO
AS
F1
AS
F2
DA
SY
I
XMW
R
XCA
S
XRA
S
XMO
E
MA
9/m
nt0
MA
10
/mn
t1
MA
11
/mn
t2
MA
[8:0
]
MD
B[F
:0]
XHRS
XPD I
REDY
XS1 6
H I NT
HDRQ
DASP
XHAC
H A [ 2 : 0 ]
HDB [ F : 0
XHWR
XHRD
HCS1
HCS0
XRST
XT L 2
XT L 1
XWA
IT
XIN
T1
XIN
T0
XCS
A[7
:0]
D[7
:0]
XRD
XWR
XTA
L
RF I N
PDO
PDHVCC
FDO
LPF 1
LPF 2
VC1
LPF 5
VCOR1
VCO I N
MDPOUT
MDSOUT
CLVS
MD I N1
MD I N2
SPO
VC2
GFS
APEO
GSCOR
MDAT
BCLK
LRCK
C2PO
WFCK
SCOR
SB I N
EXCK
XRC I
DDAT
DLRC
DBCK
2 4 , 2 6 , 2 7 , 2 9 t o 3 2 , 3 4 ,3 5 , 3 7 , 3 9 t o 4 1 , 4 3 t o 4 5
66 to 69 , 71 , 73 to 75 , 96 , 97 ,9 9 , 1 0 1 , 1 0 2 , 1 0 4 t o 1 0 6
7 9 , 8 0 , 8 2 t o 8 7 , 8 9
5 6 , 5 9 , 6 0
5 , 7 , 9 t o 1 41 , 2 , 4 , 172 t o 176
Q124 : CXD1882R
39
Q125 : CXP973064R-1(FLASH) / GXPQ7100(MASK)
Pin No. Pin Name I/O Description1 FTMUT O Actuator driver mute signal for foc/track2 SLMUT O Actuator driver mute signal for spin/sledg3 AMUT O Muting on/off "L" : muting on for CXD3068Q4 SMUT O Muting on/off signal output to the DSD decoder "H" : muting on5 XRST O System reset signal output (L= reset)6 CD/XDVD O CD/DVD(SACD) mode selection signal output (L=CD, H=SACD)7 LOCK I GFS is sampled by 460 Hz "H" input when GFS is. "H"8 MBHLD - NC9 AMPSDT I/O Serial data transfer DATA signal input,output
10 AMPSCK O Serial data transfer clock signal output11 AMPSEN O Serial data transfer enable signal (H=enable)12 XDECSEL O OPU block on/off for modulation circuit (L=on)13 VSS O Ground terminal (digital system)14 D0 I/O Two-way data bus15 D1 I/O Two-way data bus16 D2 I/O Two-way data bus17 D3 I/O Two-way data bus18 D4 I/O Two-way data bus19 D5 I/O Two-way data bus20 D6 I/O Two-way data bus21 D7 I/O Two-way data bus22 XDECINT0 I Interrupt signal input from CXD1881R23 XDECINT1 I Interrupt signal input from CXD1881R24 TZC I Track signal, OPU in case by traversal the disc track line 25 PE3 - NC 26 PE3 - NC27 SEEK O Display data ready signal output to the feature MPU ("H" : read)28 REQST O Reqest signal CXD1882R29 NC - Not used (open)30 DECMNT1 I RF signal monitor input from CXD1882R31 FOK I Focus on signal32 GFSDEC I Guard frame sync signal input33 DRVRXD I Input signal data from the feature MPU 34 DRVTXD O Output signal data for the featur MPU35 DRVCLK I Input signal clock from the featur MPU36 XDRVRDY O Output data signal readey for the featur MPU37 DRVIRQ O Iutput data signal readey from the featur MPU38 XRESET I Power on reset signal input (L=reset)39 VSS Ground terminal (digital system)40 XTAL I System clock input terminal (20 MHz)41 EXTAL O System clock output terminal (20 MHz)42 VDD Power supply terminal (+3.3V) (digital system)43 DSPXLAT O Serial data latch pulse signal output to the CXD3068Q44 XMSLAT O Serial data latch pulse signal output to the CXD2752R45 MSCK O Serial data transfer clock signal output to CXD2752R46 MSDTO O Serial data output to the DSD CXD2752R47 MSDTI I Serial data input from the CXD2752R48 MSREADY I Ready signal input from the CXD2752R "L" : ready49 DSPDTO O Serial data output to the CXD3068Q50 DSPSCK O Serial data clock input from the CXD3068Q51 SENS I Internal status (SENSE) signal input from CXD3068Q52 SQSO I Subcode Q data input53 SNSCK O Serial status data clock output to the CXD3068Q54 SQCK O Subcode Q data reading clock signal output55 VSS Ground terminal (digital system)56 JITIN I Jitter signal input terminal57 AMPMNT I Monitor signal from the CXD1881R58 -ATT I -12dB atteneation request signal input "L" : attenation on59 P17 - NC60 PJ0 - NC61 SCSY O GRSCOR data sync request signal for CXD3068Q62 GFSDSP I Frequency generator signal input63 C2PO I C2 pointer signal input from the CXD3068Q64 MIRR I Mirror signal input from CXD3068Q65 DECMNT2 I Monitor signal from the CXD1882R
40
SCLK
MCLK
M4
LRCK
SDATA
AOUTL+
AOUTR+
SERIAL INTERFACEAND FORMAT SELECT
INTERPOLATION
SOFT MUTE
∆ΣMODULATOR
DYNAMIC
DE-EMPHASIS
SWITCHED
AOUTL-
AOUTR-
FILT+
FILTER
INTERPOLATIONFILTER
FILTER
MULTI-BIT
∆ΣMODULATOR
MULTI-BIT
ELEMENTMATCHING
LOGIC
DYNAMICELEMENT
MATCHINGLOGIC
CAPACITOR-DACAND FILTER
SWITCHEDCAPACITOR-DAC
AND FILTER
VREF CMOUTFILT-
VOLTAGE REFERENCEHARDWARE MODE CONTROL
CLOCKDIVIDER
(CONTROL PORT)
(AD0/CS)M3 M2
(AD1/CDIN) (SCL/CCLK)M1 M0
(SDA/CDOUT)RESET MUTEC MUTE
Q125 : CXP973064R-1(FLASH) / GXPQ7100(MASK)
QD41/QD61 : CS4397
66 FJUP_D O Focus jump DOWN signal output 67 FJUP_U O Focus jump UP signal output68 AVSS 0 Ground terminal (for A/D converter)69 AVREF I Reference voltage input terminal (for A/D converter)70 AVDD I power supply terminal (+3.3V) (for A/D converter)71 XFCMP_L I Layer swicthing monitor signal at the down from refrenc level72 XFCMP_H I Layer swicthing monitor signal at the up from refrenc level73 XLIM I Sledge position dedector sw (L=inner)74 XTCLS I Tray loading inner switch input from the toray loader (L=inner)75 XTOPN I Tray loading inner switch input from the toray loader (L=open)76 EDCERR - Not used (open)77 BUEEMP I MPR2="L", input case of install data for the MPU(FLASH ROM version)78 EPDA - Not used (open)79 EPCL - Not used (open)80 PCRXD I Install data input for MPU chip (internal FLASH ROM TYPE)81 PCTXD O Install data output for MPU chip (internal FLASH ROM TYPE)82 FSJP O Start of Layer chenge signal83 SYNCERR I MPR3="H", input case of install data for the MPU (FLASH ROM version)84 XDECWR O write strobe signal output for CXD1882R85 XDECRD O Read strobe signal output for CXD1882R86 MPR1 I MPR1="H", input case of install data for the MPU (FLASH ROM version)87 VDD Power supply terminal (+3.3V) (digital system)88 VSS Ground termina1(digital system)89 A0 O Address signal output90 A1 O Address signal output91 A2 O Address signal output92 A3 O Address signal output93 A4 O Address signal output94 A5 O Address signal output95 A6 O Address signal output96 A7 O Address signal output97 XMODEON O CD/DVD(SACD) RF-bypass/DFT selection signal output (H=CD, L=SACD)98 LDON O Laser diode on/off control signal output "L" : laser diode off, "H" : laser diode on99 EJECT- O Tray loader pull-in signal
100 EJECT+ O Tray loader push-out signal
41
QD41/QD61 : CS4397
Reset - RST Pin 1, Input Function: The device enters a low power mode and all internal state
machines registers are reset when low. When high, the device will be in a normal operation mode .
RST DESCRIPTION0 Enabled1 Normal operation mode
Digital Ground - DGND Pins 6 and 9, Inputs Function: Digital ground reference.
Digital Power - VD Pins 7 and 8, Input Function: Digital power supply. Typically 5.0 to 3.0 VDC.
Master Clock - MCLK Pin 10, Input Function: The master clock frequency must be either 256x, 384x, 512x or
768x the input sample rate in Single Speed Mode; either 128x, 192x 256x or 384x the input sample
rate in Double Speed Mode; or 64x, 96x 128x or 192x the input sample rate in Quad Speed Mode. Tables
4-6 illustrate the standard audio sample rates and the required master clock frequencies.
Sample Rate (kHz)
MCLK (MHz)256x 384x 512x 768x
32 8.1920 12.2880 16.3840 24.5760 44.1 11.2896 16.9344 22.5792 33.868848 12.2880 18.4320 24.5760 36.8640
Table 4. Single Speed (16 to 50 kHz sample rates) Common Clock
Frequencies
Sample Rate (kHz)
MCLK (MHz)128x 192x 256x 384x
64 8.1920 12.2880 16.3840 24.5760 88.2 11.2896 16.9344 22.5792 33.868896 12.2880 18.4320 24.5760 36.8640
Table 5. Double Speed (50 to 100 kHz sample rates) Common Clock
Frequencies
Sample Rate (kHz)
MCLK (MHz)64x 96x 128x 192x
176.4 11.2896 16.9344 22.5792 33.8688 192 12.2880 18.4320 24.5760 36.8640
Table 6. Quad Speed (100 to 200 kHz sample rates) Common Clock
Frequencies
Serial Clock - SCLK Pin 11, Input Function: Clocks individual bits of serial data into the SDATA pin. The
required relationship between the Left/Right clock, serial clock and serial data is defi ned by either the Mode
Control Byte in Control Port Mode or the M0 - M4 pins in Hardware Mode. The options are detailed in
Figures 29-33
Left/Right Clock - LRCK Pin 12, Input Function:
The Left/Right clock determines which channel is currently being input on the serial audio data input,
SDATA. The frequency of the Left/Right clock must be at the input sample rate. Audio samples in
Left/Right sample pairs will be simultaneously output from the digital-to-analog converter whereas
Right/Left pairs will exhibit a one sample period difference. The required relationship between the
Left/Right clock, serial clock and serial data is defi ned by the Mode Control Byte and the options are de-
tailed in Figures 29-33
Serial Audio Data - SDATA Pin 13, Input Function: Serial audio data is input on this pin. The selection of the Digital
Interface Format is determined by set- tings of the Mode select as detailed in Figures 29-33. The data is
clocked into SDATA via the serial clock and the channel is determined by the Left/Right clock. The
required relationship between the Left/Right clock, serial clock and serial data is defi ned by the Mode Control
Byte and the options are detailed inin Figures 29-33
Soft Mute - MUTE Pin 15, Input Function: The analog outputs will ramp to a muted state when enabled. The
ramp requires 1152 left/right clock cy- cles in Single Speed, 2304 cycles in Double Speed and 4608
cycles in Quad Speed mode. The bias volt- age on the outputs will be retained and MUTEC will go active at
the completion of the ramp period.
The analog outputs will ramp to a normal state when this function transitions from the enabled to disabled
state. The ramp requires 1152 left/right clock cycles in Single Speed, 2304 cycles in Double Speed and
4608 cycles in Quad Speed mode. The MUTEC will release immediately on setting MUTE = 1.
The converter analog outputs will mute when enabled. The bias voltage on the outputs will be retained
and MUTEC will go active during the mute period.
Mute DESCRIPTION0 Enabled1 Normal operation mode
Control Port / Hardware Mode Select - C/H Pin 16, Input Function: Determines if the device will operate in either the Hardware Mode
or Control Port Mode.
C/H DESCRIPTION0 Hardware Mode Enabled1 Control Port Mode Enabled
Mute Control - MUTEC Pin 17, Output Function: The Mute Control pin goes low during power-up initialization,
reset, muting, master clock to left/right clock frequency ratio is incorrect or power-down. This pin is intended to
be used as a control for an external mute circuit to prevent the clicks and pops that can occur in any single
supply system. Use of Mute Control is not mandatory but recommended for designs requiring the absolute
minimum in extraneous clicks and pops.
42
Analog Ground - AGND Pins 18 and 21, Inputs Function: Analog ground reference.
Differential Analog Outpus - AOUTR- , AOUTR+ and AOUTL- , AOUTL+
Pins 19, 20, 23 and 24, Outputs Function: The full scale differential analog output level is specifi ed in the
Analog Characteristics specifi cations table.
Analog Power - VA Pin 22, Input Function: Power for the analog and reference circuits. Typically 5VDC.
Common Mode Voltage - CMOUT Pin 25, Output Function: Filter connection for internal bias voltage, typically 50% of VREF.
Capacitors must be connected from CMOUT to analog ground, as shown in Figure 6. CMOUT has a typical source impedence of 25 kΩ and any current drawn from this pin will alter device performance
Reference Ground - FILT- Pin 26, Input Function: Ground reference for the internal sampling circuits. Must be
connected to analog ground.
Reference Filter - FILT+ Pin 27, Output Function: Positive reference for internal sampling circuits. External
capacitors are required from FILT+ to analog ground, as shown in Figure 6. FILT+ is not intended to supply external current.
Voltage Reference Input- VREF Pin 28, Input Function: Analog voltage reference. Typically 5VDC.
HARDWARE MODEMode Select - M0, M1, M2, M3, M4 Pins 2, 3, 4, 5 and 14, Inputs Function: The Mode Select pins determine the operational mode of the
device as detailed in Tables 9-14. The op-tions include; Selection of the Digital Interface Format which determines the
required relationship between the Left/Right clock, serial clock and serial data as detailed in Figures 29-33 Selection of the standard 15 µs/50 µs digital de-emphasis fi lter response, Figure 28, which requires re-confi guration of the digital fi lter to maintain the proper fi lter response for 32, 44.1 or 48 kHz sample rates.
Selection of the appropriate clocking mode to match the input sample rates. Access to the Direct Stream Digital Mode Access to the 8x Interpolation Input Mode
CONTROL PORT MODEAddress Bit 0 / Chip Select - AD0 / CS Pin 2, Input Function: In I2C mode, AD0 is a chip address bit. CS is used to enable the
control port interface in SPI mode. The device will enter the SPI mode at anytime a high to low transition is detected on this pin. Once the device has entered the SPI mode, it will remain until either the part is reset or undergoes a power-down cycle.
Address Bit 1 / Control Data Input - AD1/CDIN Pin 3, Input Function: In I2C mode, AD1 is a chip address bit. CDIN is the control data
input line for the control port interface in SPI mode.
Serial Control Interface Clock - SCL/CCLK Pin 4, Input Function: In I2C mode, SCL clocks the serial control data into or from
SDA/CDOUT. In SPI mode, CCLK clocks the serial data into AD1/CDIN and out
of SDA/CDOUT.
Serial Control Data I/O - SDA/CDOUT Pin 5, Input/Output Function: In I2C mode, SDA is a data input/output. CDOUT is the control
data output for the control port interface in SPI mode.
M1 - Mode Select Pin 14, Input Function: This pin is not used in Control Port Mode and must be terminated
to ground.
QD41/QD61 : CS4397
43 44
QF01 : MB90F553A
Pin Port Signal I/O Function Description Active
1 P20/A16 M41 O DAC select Front L/R active H
2 P21/A17 M42 O DAC select Surround L/R active H
3 P22/A18 M43 O DAC select center, LFE active H
4 P23/A19
5 P24/A20 MUT1 O MUTE Front L/R active H
6 P25/A21 MUT2 O MUTE Surr.L/R, Center, LFE active H
7 P26/A22 active H
8 P27/A23
9 P30/ALE
10 P31/RD
11 Vss Vss GND
12 P32/WRL
13 P33/WRH
14 P34/WRQ
15 P35/HAK
16 P36/RDY FCEN O Display driver select adrs=L; inst=H
17 P37/CLK FRES O Display driver reset active L
18 P40/SCK FCLK O Display driver clock active L
19 P41/SOT FDAT O Display driver data Pulse
20 P42/SIN
21 P43/SCK1 DRVCLK O Front end clock active L
22 P44/SOT1 DRVRX O Front end data output
23 Vcc VDD 5V
24 P45/SIN1 DRVTX I Front end data input
25 P46/ADTG CDRST O DAC reset active L
26 P47/SCK0 CDCLK O DAC clock active L
27 C Cap. 0.1uF
28 P50/SDA0/SOT0 CDIN O DAC data output Pulse
29 P51/SCL0/SIN0 CDOUT I DAC data input Pulse
30 P52/SDA1
31 P53/SCL1
32 P54/SDA2
33 P55/SCL2
34 Avcc AVDD 5V
35 AVRH AVRef 5V
36 AVRL GND GND
37 Avss AGND GND
38 P60/AN0 ADkey0 I Key input A/D
39 P61/AN1 ADkey1 I Key input A/D
40 P62/AN2 ADkey2 I Key input A/D
41 P63/AN3 ADkey3 I Key input A/D
42 Vss Vss GND
43 P64/AN4 EEDAT O EEROM data
44 P65/AN5 EECLK O EEROM clock
45 P66/AN6
46 P67/AN7
47 P70/IRQ0
48 P71/IRQ1
49 MD0 MODE1 I Mode select Normal=H
50 MD1 MODE2 Mode select Normal=H
51 MD2 MODE3 Mode select Normal=L
52 HST HWSTBY Hardware standby Normal=H
53 P72/IRQ2 SEEK Search signal Search=L
54 P73/IRQ3 STBSW Standby on/off key input active H
55 P74/IRQ4 IR Standby on/off remote input
56 P75/IRQ5 DRV RES O Front end reset active L
57 P76/IRQ6 DRV RDY I Front end ready active L
58 P77/IRQ7 DRV RQ I Front end request active L
59 P80/TIN0
60 P81/TIN1
61 P82/TOT0
62 P83/TOT1
63 P84/IN0 RC-5 RC-5 input active L
64 P85/IN1
65 P86/IN2
66 P86/IN3
67 P90/OUT0 CD O LED CD active L
68 P91/OUT1 2ch O LED 2ch active L
69 P92/PPG0 Multi O LED Multi active L
70 P93/PPG1 STBY O LED standby active L
71 P94/PPG2 DISP O LED display off active L
72 P95/PPG3
73 P96/PPG4
74 P97/PPG5
75 PA0/OUT2
76 PA1/OUT3
77 RST Reset Reset active L
78 PA2
79 PA3
80 PA4/CKOT
81 Vss GND -
82 X0 X'tal 8MHz
83 X1 X'tal 8MHz
84 Vcc VDD 5V
85 P00/AD00
86 P01/AD01
87 P02/AD02
88 P03/AD03
89 P04/AD04
90 P05/AD05
91 P06/AD06
92 P07/AD07 SYCLSW O Filter control Custom=L
93 P10/AD08 MODE1 O Mode select SACD=H;CD=L
94 P11/AD09 STBY O standby control Standby =L
95 P12/AD10
96 P13/AD11
97 P14/AD12 Multi/2ch I Multi, 2ch select Multi=H; 2ch=L
98 P15/AD13
99 P16/AD14
100 P17/AD15
4645
9. EXPLODED VIEW AND PARTS LIST
0 0 1 B
5 1 2 83 X8 ( M)
x 5
5 1 2 83 X8 ( M)
x 6
5 1 2 83 X8 ( M)
x 2
0 0 1 B
0 0 3 B
0 1 0 B
0 2 9 B
0 1 1 B
5 1 2 83 X1 0 ( M)
x 40 3 2 G
0 3 2 G
5 1 2 83 X8 ( M)
x 1 2
0 3 6 Gx 2
0 0 1 GCHASSI S ASS Y.
( 0 0 2 G)
0 0 9 Gx 2
( 0 0 3 G) x 3
5 1 2 83 X8 ( M)
x 2
0 3 0 G
0 3 8 Gx 4
5 1 5 03 X8 ( M)
x 20 1 1 G
5 1 2 83 X5 ( M)
0 0 7 Gx 3
5 1 2 83 X8 ( M)
x 2
9 1 0 G
0 2 5 G
5 1 2 83 X 8 ( M)
PA1 6
0 3 2 Gx 4
0 3 5 Gx 5
0 3 1 Gx 2
P H1 6
L 0 0 2
L 0 0 1
W0 0 1
5 1 1 03 X6 ( M)
x 30 2 1 L x 5 0 4 1 G
PP1 6
J 0 0 1
5 1 2 83 X8 ( M) x 2
9 0 1 G
5 1 2 73 X8 ( M)
x 5
9 0 8 G
5 1 2 73 X8 ( M)
x 1 2
9 2 0 G5 1 2 63 X8 ( M)x 4
0 2 8 G
PH2 6
9 2 5 G
5 1 2 63 X8 ( M)
x 25 1 2 63 X8 ( M) x 2
5 1 2 63 X8 ( M)
x 2
0 0 1 D
0 0 9 M
5 1 1 02 . 6 X5 ( M)
x 4
5 1 2 83 X 8 ( M)
x 4
0 0 1 M
0 0 2 M
0 0 6 M
0 0 7 M
0 0 3 Mx 2
0 1 0 M
5 1 2 83 X8 ( M)x 4
PV1 6
0 0 4 Mx 2
5 1 9 21 . 7 X9 ( U)
x 2
5 4 0 42 . 6 ( A )
x 2
0 0 5 Mx 4
5 4 0 53 ( M)
5 1 1 03 X8 ( M)
x 5
0 3 5 Gx 5
AU DI O C D
S U P E R
0 0 2 B
0 1 2 B
0 1 3 B
0 1 4 Bx 20 2 0 B
0 2 1 B
0 2 2 B
0 2 3 Bx 45 1 2 83 X8 ( M)
x 1 0
5 1 2 83 X8 ( M)
x 2
0 2 6 B
0 2 7 B
5 1 2 83 X8 ( M)
x 4
5 1 2 83 X8 ( M)
x 3
PY1 6
5 1 2 83 X8 ( M)
x 2
PR1 6
VX0 1
PY2 6
T 1 0 0
A UD I O C D
S U P E R
( M)
SYMBOL STYL E PARTS NAME
MARK MAT ERI AL / F I NI S H
STEEL / COPPER
+ B. H. M. S CREW
+ B. H. T AP T I T E SCREW W /WASHER
5 1 1 0
5 1 2 6
5 1 2 7
STEEL / BL ACK( U )
+ B. H. T AP T I T E SCREW( B T YPE)5 1 2 8
5 1 2 9
5 1 5 0
STEEL / CHROMAT E( A )
+ B. H. T AP T I T E SCREW( W/ T . L . WASHE R)
+ F. H. T AP T I T E SCREW( B T YPE)
5 1 9 2
5 4 0 4
5 4 0 5
SPRI N G L OCK WAS HERS
TOOT HED L OCK WASHERS
+ B. H. T AP T I T E SCREW( W/ )
+ P. H. M. S CREW (M I NUT E)
NOTE : "nsp" PART IS LISTED FOR REFERENCE ONLY, MARANTZ WILL NOT SUPPLY THESE PARTS.
47
POS. NO
VERS. COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
POS. NO
VERS.COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
001B BLACK FRONT AL PANEL BLACK 01AK248010 001B GOLD FRONT AL PANEL GOLD 01AK248110 002B BLACK CHASSIS FRONT MOULD
PANEL BLACK 01AK105020
002B GOLD CHASSIS FRONT MOULD PANEL GOLD
01AK105120
003B 9965 000 01393 LENS STANDBY 312J355010 010B 4822 459 11172 BADGE MARANTZ 185J251010 011B BADGE S C D 01AK251010 012B WINDOW 01AK158010 013B HOLDER FL 255W271010 020B BLACK BUTTON POWER BLACK 320J270040 020B GOLD BUTTON POWER GOLD 320J270240 021B BLACK BUTTON 6 BLACK 01AK270010 021B GOLD BUTTON 6 GOLD 01AK270110 022B BLACK BUTTON 4 BLACK 01AK270020 022B GOLD BUTTON 4 GOLD 01AK270120 023B LENS FUNCTION 01AK355010 026B BRACKET HEAD PHONE 01AK160030 027B 9965 000 01559 CLAMPER STOPPER
FOR H/P JACK + BRACKET 214K005010
029B BLACK 4822 411 20336 KNOB PHONE VOLUME BLACK
284T154310
029B GOLD 4822 411 20336 KNOB PHONE VOLUME GOLD
284T154250
032G 4822 462 42045 LEG FRONT 183J057010 036G 4822 462 42048 LEG REAR 183J057110 001M MECHANISM LOADER 01AK304010 003M DUMPER FRONT GREEN 01AK130030 004M DUMPER REAR GRAY 01A K130040 005M SCREW DUMPER + LOADER 01AK010010 006M BLACK ESCUTCHEON
FOR CD TRAY BLACK 01AK063010
006M GOLD ESCUTCHEON FOR CD TRAY BLACK
01AK063110
007M ESCUTCHEON SCD LOGO 392K063160 010M MECHANISM PICK UP UNIT 01AK304020
J001 JACK AC INLET TYPE HF-301 YJ04002550 L003 FERRITE CORE TFCK-23-11-14 FC50230010 L011 FERRITE CORE
USB-4 FOR W901 FC50270040
L012 FERRITE CORE HF70SH28X2X10 FOR WF04
FC90280010
WF04 4822 321 63067 FFC 1MM-PITCH 25P
JF01-J105 YU25100550
WF05 4822 321 63067 FFC 1MM-PITCH 25PJF02-J106 YU25100550 WF06 FFC 1MM-PITCH 25P
JF04-JD01 YU25080520
WF07 FFC 1MM-PITCH 21P JF03-JY01
YU21130510
WF08 FFC 1.25MM-PITCH 6P J104-TRAY
YU06060520
W001 /F1 4822 321 11337 MAINS CORD 3P MITY FOR F OFC
ZC01802080
W001 /S1 MAINS CORD FOR UK AC 250V 10A
ZC01804100
W001 /U1 MAINS CORD UL/CSA 10A 125V
ZC01803100
W101 FFC J101-OPT_UNIT 1MM 25P YU25080550
PACKING 001T /F1 USER GUIDE 01AK851110 001T /S1 USER GUIDE 01AK851350 001T /U1 USER GUIDE 01AK851250 T100 REMOTE CONTROLLER
COMANDER RC8260SA ZK01AK0010
NOT STANDARD
SPEAR PARTS
001D BLACK LID TOP COVER BLACK 319J257020 001D GOLD LID TOP COVER BLACK 319J257120 001S PACKING CASE 01AK801010 002S CUSHION L/R 319J809010 007T /F1 USER GUIDE FLY SHEET 01AK851010 007T /S1 USER GUIDE FLY SHEET 01AK851010 J051 4822 321 62012 CONNECTIVE CORD
CINCH RC-5 CORD 0.9M ZD00900100
J082 4822 321 62205 CONNECTIVE CORD CINCH ST.CORD 1M GOLD
ZD01000550
PV16 PCB ASSY ZZ01AK1000PV16
NOTE : "nsp" PART IS LISTED FOR REFERENCE ONLY, MARANTZ WILL NOT SUPPLY THESE PARTS.
48
2
53
21
6
4
11
13
9
HOOK TO NO. 4
2416
7
14
15
1
8
2519
10. LOADING MECHANISM ASS'Y
NOVERS.
COLORPART NO. DESCRIPTION
1 nsp CHASSIS-MAIN 62-210-1015 2 01AK054010 CAM SLIDER 62-239-20173 01AK058010 GEAR LOAD A 62-222-40034 01AK058020 PULLEY GEAR 62-223-40045 01AK058030 GEAR LOAD TRY 62-222-30056 01AK058040 GEAR B 62-222-40067 KM01AK13J3 ASS'Y MOTOR 62-093-40238 01AK401010 CHASSIS SUB 62-211-20079 01AK163010 TRAY 62-218-1016
10 nsp 11 01AK004010 CLAMPER-2 62-223-304112 nsp 13 nsp YOKE 56-119-403014 nsp PWB 62-070-301815 nsp CONNECTOR 6FESTVKN16 *SM000380R LEVER SWITCH F501-001217 nsp 18 nsp19 nsp SCREW GSP14A2502720 nsp 21 nsp SCREW 03-300-452522 nsp 23 nsp 24 01AK264010 BELT LOADING 02-08422825 nsp WASHER GWP52X10002526 nsp27 nsp28 nsp29 nsp30 nsp31 nsp
49
11. ELECTRICAL PARTS LIST
The suppliers and their type numbers of fusible resistorsare as follows;1. KOA Corporation Part No. (MJI) Type No. (KOA) DescriptionNH05 × × × 140 RF25S × × × × ΩJ (±5% 1/4W)NH05 × × × 120 RF50S × × × × ΩJ (±5% 1/2W)NH85 × × × 110 RF73B2A × × × × ΩJ (±5% 1/10W)NH95 × × × 140 RF73B2E × × × × ΩJ (±5% 1/4W)
2. Matsushita Electronic Components Co., Ltd Part No. (MJI) Type No. (MEC) DescriptionNF05 × × × 140 ERD-2FCJ × × × (±5% 1/4W)RF05 × × × 140NF02 × × × 140 ERD-2FCG × × × (±2% 1/4W)RF02 × × × 140
Examples ; Resistance value0.1 Ω .... 001 10 Ω .... 100 1 kΩ .... 102 100 kΩ .... 1040.5 Ω .... 005 18 Ω .... 180 2.7 kΩ .... 272 680 kΩ .... 684
1 Ω .... 010 100 Ω .... 101 10 kΩ .... 103 1 MΩ .... 1056.8 Ω .... 068 390 Ω .... 391 22 kΩ .... 223 4.7 MΩ .... 475
ASSIGNMENT OF COMMON PARTS CODES.RESISTORSR : 1) GD05 × × × 140, Carbon film fixed resistor, ±5% 1/4WR : 2) GD05 × × × 160, Carbon film fixed resistor, ±5% 1/6W
Examples ;Resistance value
0.1 Ω .... 001 10 Ω .... 100 1 kΩ .... 102 100 kΩ .... 1040.5 Ω .... 005 18 Ω .... 180 2.7 kΩ .... 272 680 kΩ .... 684
1 Ω .... 010 100 Ω .... 101 10 kΩ .... 103 1 MΩ .... 1056.8 Ω .... 068 390 Ω .... 391 22 kΩ .... 223 4.7 MΩ .... 475
Note : Please distinguish 1/4W from 1/6W by the shape of partsused actually.
CAPACITORSC : CERAMIC CAP.
3) DD1 × × × × 370, Ceramic capacitorDisc typeTemp.coeff.P350 N1000, 50V
Examples ;Tolerance (Capacity deviation)
±0.25 pF .... 0±0.5 pF .... 1
±5% .... 5 Tolerance of COMMON PARTS handled here are as follows :
0.5 pF 5 pF .... ±0.25 pF6 pF 10 pF .... ±0.5 pF
12 pF 560 pF .... ±5%Capacity value
0.5 pF .... 005 3 pF .... 030 100 pF .... 1011 pF .... 010 10 pF .... 100 220 pF .... 221
1.5 pF .... 015 47 pF .... 470 560 pF .... 561
C : CERAMIC CAP.4) DK16 × × × 300, High dielectric constant ceramic
capacitorDisc typeTemp.chara. 2B4, 50V
Examples ;Capacity value
100 pF .... 101 1000 pF ....102 10000 pF .... 103470 pF .... 471 2200 pF ....222
C : 5) ELECTROLY CAP. ( ), 6) FILM CAP. ( )5) EA × × × × × × 10, Electrolytic capacitor
One-way lead type, Tolerance ±20%
Examples ;Capacity value
0.1 µF ....104 4.7 µF ....475 100 µF ....1070.33 µF ....334 10 µF ....106 330 µF ....337
1 µF ....105 22 µF ....226 1100 µF ....1182200 µF ....228
Working voltage6.3V....006 25V ....02510V....010 35V ....03516V....016 50V ....050
6) DF15 × × × 350 Plastic film capacitorDF15 × × × 310 One-way type, Mylar ±5% 50VDF16 × × × 310 Plastic film capacitor
One-way type, Mylar ±10% 50V
Examples ;Capacity value
0.001 µF (1000 pF) ....... 102 0.1 µF ....1040.0018 µF ........................ 182 0.56 µF ....564
0.01 µF ........................ 103 1 µF ....1050.015 µF ........................ 153
: 1) The above CODES ( R , R , C , C and C ) are omitted on the schematic diagram in some
case.2) On the occasion, be confirmed the common parts on
the parts list.3) Refer to “Common Parts List” for the other common
parts (RI05, DD4, DK4).
➀
➁Capacity valueTolerance
➃
Capacity value
Resistance value
➄Working voltageCapacity value
➆Capacity value
NOTE
NOTE ON SAFETY FOR FUSIBLE RESISTOR :
Resistance value Resistance value (0.1 Ω − 10 kΩ)
Resistance value Resistance value
ANT. : ANTENNA BATT. : BATTERY
CAP. : CAPACITOR CER. : CERAMIC
CONN. : CONNECTING DIG. : DIGITAL
HP : HEADPHONE MIC. : MICROPHONE
µ-PRO : MICROPROCESSOR REC. : RECORDING
RES. : RESISTOR SPK : SPEAKER
SW : SWITCH TRANSF. : TRANSFORMER
TRIM. : TRIMMING TRS. : TRANSISTOR
VAR. : VARIABLE X’TAL : CRYSTAL
ABBREVIATION AND MARKS
➂
➀
➁
➂
➃
➄
➅
➆
➅
NOTE ON SAFETY :Symbol Fire or electrical shock hazard. Only original
parts should be used to replaced any part marked with
symbol . Any other component subst i tut ion (other
than original type), may increase risk of f ire or electrical
shock hazard.
NOTE ON FUSE : Regarding to all parts of parts code FS20xxx2xx, replace only with Wickmann-Werke GmbH, Type 372 non glass type fuse.
010728MIT
NOTE : "nsp" PART IS LISTED FOR REFERENCE ONLY, MARANTZ WILL NOT SUPPLY THESE PARTS.
50
POS. NO
VERS. COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
POS. NO
VERS.COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
PA16-AUDIO LS RS C LFE CIRCUIT BOARD
PA16-CAPACITORS CD41 4822 124 90354 ELECT. 100µF M 16V RA-2 OA10701620
CD42 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CD43 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CD44 4822 124 90354 ELECT. 100µF M 16V RA-2 OA10701620 CD45 4822 124 22237 ELECT. 10µF 16V ARA OA10601650 CD46 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CD47 9965 000 01567 ELECT. 100µF 10V ARA OA10701050 CD48 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CD49 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CD71 4822 124 90354 ELECT. 100µF M 16V RA-2 OA10701620 CD72 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CD73 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CD74 4822 124 90354 ELECT. 100µF M 16V RA-2 OA10701620 CD75 4822 124 22237 ELECT. 10µF 16V ARA OA10601650 CD76 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CD77 9965 000 01567 ELECT. 100µF 10V ARA OA10701050 CD78 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CD79 4822 126 11558 CER. 0.1µF Z 50V DA17104110 C401 FILM 1800pF TP 100V PP OF15182540 C402 4822 126 14166 FILM 330pF TP 100V PP OF15331540 C403 4822 126 10513 CER. 47pF DA15470110 C404 9965 000 00438 FILM 120pF J 100V APSV OF15121540 C405 4822 124 22039 ELECT. 220µF 16V CERAFINE OA22701650 C406 4822 124 22039 ELECT. 220µF 16V CERAFINE OA22701650 C409 9965 000 04966 FILM 1200pF TP 100V PP OF15122540 C410 FILM 560pF TP 100V PP OF15561540 C411 4822 126 13089 CER. 33pF DA15330110 C412 FILM 680pF J OF15681540 C413 4822 124 22039 ELECT. 220µF 16V CERAFINE OA22701650 C414 4822 124 22039 ELECT. 220µF 16V CERAFINE OA22701650 C416 4822 124 80123 ELECT. 220µF 16V ARS OA22701640 C417 JUMPER C451 FILM 1800pF TP 100V PP OF15182540 C452 4822 126 14166 FILM 330pF TP 100V PP OF15331540 C453 4822 126 10513 CER. 47pF DA15470110 C454 9965 000 00438 FILM 120pF J 100V APSV OF15121540 C459 9965 000 04966 FILM 1200pF TP 100V PP OF15122540 C460 FILM 560pF TP 100V PP OF15561540 C461 4822 126 13089 CER. 33pF DA15330110 C462 FILM 680pF J OF15681540 C466 4822 124 80123 ELECT. 220µF 16V ARS OA22701640 C467 JUMPER C701 FILM 1800pF TP 100V PP OF15182540 C702 4822 126 14166 FILM 330pF TP 100V PP OF15331540 C703 4822 126 10513 CER. 47pF DA15470110 C704 9965 000 00438 FILM 120pF J 100V APSV OF15121540 C705 4822 124 22039 ELECT. 220µF 16V CERAFINE OA22701650 C706 4822 124 22039 ELECT. 220µF 16V CERAFINE OA22701650 C709 9965 000 04966 FILM 1200pF TP 100V PP OF15122540 C710 FILM 560pF TP 100V PP OF15561540 C711 4822 126 13089 CER. 33pF DA15330110 C712 FILM 680pF J OF15681540 C713 4822 124 22039 ELECT. 220µF 16V CERAFINE OA22701650 C714 4822 124 22039 ELECT. 220µF 16V CERAFINE OA22701650 C716 4822 124 80123 ELECT. 220µF 16V ARS OA22701640 C717 JUMPER C751 FILM 1800pF TP 100V PP OF15182540 C752 4822 126 14166 FILM 330pF TP 100V PP OF15331540 C753 4822 126 10513 CER. 47pF DA15470110 C754 9965 000 00438 FILM 120pF J 100V APSV OF15121540 C759 9965 000 04966 FILM 1200pF TP 100V PP OF15122540 C760 FILM 560pF TP 100V PP OF15561540
C761 4822 126 13089 CER. 33pF DA15330110 C762 FILM 680pF J OF15681540 C766 4822 124 80123 ELECT. 220µF 16V ARS OA22701640 C767 JUMPER
PA16-RESISTORS R415 5.1kΩ ±5% 1/6W GD05512160 R465 5.1kΩ ±5% 1/6W GD05512160 R715 5.1kΩ ±5% 1/6W GD05512160 R765 5.1kΩ ±5% 1/6W GD05512160 PA16-RESISTORS (COMMON) CARBON FILM FIXED RES.
±5% 1/6W : R401-R414 R422-R445 R451-R464 R472-R495 R701-R714 R722-R745 R751-R764 R772-R795 RD44 RD45 RD75 RN41-RN44RN71-RN74
PA16-SEMICONDUCTORS D401 4822 130 32362 DIODE 1SS176 MA165 1SS254 HD20002000 D413 30V 0.1A D451 4822 130 32362 DIODE 1SS176 MA165 1SS254 HD20002000 D463 30V 0.1A D701 4822 130 32362 DIODE 1SS176 MA165 1SS254 HD20002000 D713 30V 0.1A D751 4822 130 32362 DIODE 1SS176 MA165 1SS254 HD20002000 D763 30V 0.1A
QD41 IC CS4397
DSD/PCD DAC 24BIT 192K HC10008880
QD71 IC CS4397 DSD/PCD DAC 24BIT 192K
HC10008880
QN41 4822 130 43818 TRS. 2SC2878 A OR BRANK HT328782A0 QN44 QN71 4822 130 43818 TRS. 2SC2878 A OR BRANK HT328782A0 QN74 Q401 4822 130 42839 F.E.T. 2SK369 BL
VGDS-40V PD0.4W HF203691B0
Q402 4822 130 42839 F.E.T. 2SK369 BL VGDS-40V PD0.4W
HF203691B0
Q403 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q404 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q405 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q406 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q407 5322 130 41844 F.E.T. 2SK170 V LANK HF201701H0 Q408 4822 130 62649 F.E.T. 2SJ74 V LANK HF100741H0 Q409 4822 130 42839 F.E.T. 2SK369 BL
VGDS-40V PD0.4W HF203691B0
Q410 4822 130 42839 F.E.T. 2SK369 BL VGDS-40V PD0.4W
HF203691B0
Q411 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q412 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q413 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q414 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q415 5322 130 41844 F.E.T. 2SK170 V LANK HF201701H0 Q416 4822 130 62649 F.E.T. 2SJ74 V LANK HF100741H0 Q417 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q418 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q419 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0
NOTE : "nsp" PART IS LISTED FOR REFERENCE ONLY, MARANTZ WILL NOT SUPPLY THESE PARTS.
51
POS. NO
VERS. COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
POS. NO
VERS.COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
Q420 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q423 Q424 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q451 4822 130 42839 F.E.T. 2SK369 BL
VGDS-40V PD0.4W HF203691B0
Q452 4822 130 42839 F.E.T. 2SK369 BL VGDS-40V PD0.4W
HF203691B0
Q453 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q454 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q455 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q456 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q457 5322 130 41844 F.E.T. 2SK170 V LANK HF201701H0 Q458 4822 130 62649 F.E.T. 2SJ74 V LANK HF100741H0 Q459 4822 130 42839 F.E.T. 2SK369 BL
VGDS-40V PD0.4W HF203691B0
Q460 4822 130 42839 F.E.T. 2SK369 BL VGDS-40V PD0.4W
HF203691B0
Q461 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q462 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q463 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q464 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q465 5322 130 41844 F.E.T. 2SK170 V LANK HF201701H0 Q466 4822 130 62649 F.E.T. 2SJ74 V LANK HF100741H0 Q467 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q468 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q469 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q470 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q473 Q474 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q701 4822 130 42839 F.E.T. 2SK369 BL
VGDS-40V PD0.4W HF203691B0
Q702 4822 130 42839 F.E.T. 2SK369 BL VGDS-40V PD0.4W
HF203691B0
Q703 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q704 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q705 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q706 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q707 5322 130 41844 F.E.T. 2SK170 V LANK HF201701H0 Q708 4822 130 62649 F.E.T. 2SJ74 V LANK HF100741H0 Q709 4822 130 42839 F.E.T. 2SK369 BL
VGDS-40V PD0.4W HF203691B0
Q710 4822 130 42839 F.E.T. 2SK369 BL VGDS-40V PD0.4W
HF203691B0
Q711 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q712 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q713 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q714 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q715 5322 130 41844 F.E.T. 2SK170 V LANK HF201701H0 Q716 4822 130 62649 F.E.T. 2SJ74 V LANK HF100741H0 Q717 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q718 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q719 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q720 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q723 Q724 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q751 4822 130 42839 F.E.T. 2SK369 BL
VGDS-40V PD0.4W HF203691B0
Q752 4822 130 42839 F.E.T. 2SK369 BL VGDS-40V PD0.4W
HF203691B0
Q753 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q754 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q755 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q756 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q757 5322 130 41844 F.E.T. 2SK170 V LANK HF201701H0 Q758 4822 130 62649 F.E.T. 2SJ74 V LANK HF100741H0
Q759 4822 130 42839 F.E.T. 2SK369 BL VGDS-40V PD0.4W
HF203691B0
Q760 4822 130 42839 F.E.T. 2SK369 BL VGDS-40V PD0.4W
HF203691B0
Q761 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q762 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q763 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q764 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q765 5322 130 41844 F.E.T. 2SK170 V LANK HF201701H0 Q766 4822 130 62649 F.E.T. 2SJ74 V LANK HF100741H0 Q767 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q768 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q769 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q770 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q773 Q774 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0
PA16-MISCELLANEOUS JD01 JACK 25P
FMN-BTRK 1MM-PITCH TOP YJ07019490
J405 TERMINAL 1P CINCH YKC21-3707 BLACK CENTER
YT02011030
J406 TERMINAL 1P CINCH YKC21-3707 BLACK LFE
YT02011030
J705 TERMINAL 1P CINCH YKC21-3725 WHITE LS-CH
YT02011240
J706 TERMINAL 1P CINCH YKC21-3724 RED LR-CH
YT02011230
PH16-POWER STANDBY
CIRCUIT BOARD
PH16-CAPACITORS CH02 4822 124 22695 ELECT. 2200µF M 35V RA-2 OA22803520 CH03 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CH04 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620
CH05 4822 121 43732 FILM 0.01µF M 250V AC DF77103500 PH16-RESISTORS (COMMON) CARBON FILM FIXED RES.
±5% 1/6W : RH01 RH02
PH16-SEMICONDUCTORS DH01 4822 130 82421 DIODE 1D3 1A/200V HD20002710 DH02 4822 130 82421 DIODE 1D3 1A/200V HD20002710 DH03 4822 130 82421 DIODE 1D3 1A/200V HD20002710 DH04 4822 130 82421 DIODE 1D3 1A/200V HD20002710 DH05 4822 130 82421 DIODE 1D3 1A/200V HD20002710 DH06 4822 130 82421 DIODE 1D3 1A/200V HD20002710
QH01 4822 209 71373 IC NJM78L05A HC38105090 QH02 4822 130 61189 DIG.TRS.
DTC114TS/UN4215 10K BA20004000
QH03 TRS. 2SC2120 Y HT321201B0
PH16-MISCELLANEOUS FH01 /F1B JUMPER
FH01 /S1B FUSE T1.25A 250V VDE SWMKO
FS20125200
FH01 /U1B FUSE T1.25A 250V VDE SEMCO
FS20125200
LH02 9965 000 00681 RELAY POWER G5PA-1 5A LY10120400L002 /F1B MAINS TRANSF. 120V 60HZ TS12812010L002 /S1B MAINS TRANSF. 230V 50HZ TS12812020L002 /U1B MAINS TRANSF. 120V 60HZ TS12812010
NOTE : "nsp" PART IS LISTED FOR REFERENCE ONLY, MARANTZ WILL NOT SUPPLY THESE PARTS.
52
POS. NO
VERS. COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
POS. NO
VERS.COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
PH26-TRANSFORMER CIRCUIT BOARD
L001 /F1B MAINS TRANS FOR F 100V TS16677010L001 /S1B MAINS TRANS FOR N 230V TS16677030L001 /U1B MAINS TRANS FOR U 120V TS16677020
PP16-POWER/AUDIO L R
CIRCUIT BOARD
PP16-CAPACITORS CD21 4822 124 90352 ELECT. 10µF M 16V RA-2 OA10601620 CD22 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 CD25 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 CD26 4822 124 90364 ELECT. 220µF M 16V RA-2 OA22701620 CD61 4822 124 90354 ELECT. 100µF M 16V RA-2 OA10701620 CD62 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CD63 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CD64 4822 124 90354 ELECT. 100µF M 16V RA-2 OA10701620 CD65 4822 124 22237 ELECT. 10µF 16V ARA OA10601650 CD66 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CD67 9965 000 01567 ELECT. 100µF 10V ARA OA10701050 CD68 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CD69 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CF51 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CF52 4822 126 11127 CER. 470pF 50V DA16471110 CF53 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CF54 4822 124 90352 ELECT. 10µF M 16V RA-2 OA10601620 CN01 4822 124 40723 ELECT. 2200µF 16V OA22801620 CN02 4822 124 90357 ELECT. 2.2µF M 50V RA-2 OA22505020 CN06 4822 124 90354 ELECT. 100µF M 16V RA-2 OA10701620 CT01 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CT02 4822 126 10513 CER. 47pF DA15470110 CT03 4822 126 11726 CER. 2200pF DA17222110 CT04 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CT05 4822 124 41535 ELECT. 100µF M 25V RA-2 OA10702520 CT06 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CT10 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CY51 4822 124 90366 ELECT. 220µF M 50V RA-2 OA22705020 CY52 4822 124 90366 ELECT. 220µF M 50V RA-2 OA22705020 CY60 4822 122 40588 CER. 0.022µF TP050F223Z DA17223110 CY61 4822 122 40588 CER. 0.022µF TP050F223Z DA17223110 CY63 4822 124 41536 ELECT. 100µF M 35V RA-2 OA10703520 C351 4822 126 11558 CER. 0.1µF Z 50V DA17104110 C601 FILM 1800pF TP 100V PP OF15182540 C602 4822 126 14166 FILM 330pF TP 100V PP OF15331540 C603 4822 126 10513 CER. 47pF DA15470110 C604 9965 000 00438 FILM 120pF J 100V APSV OF15121540 C605 4822 124 22039 ELECT. 220µF 16V CERAFINE OA22701650 C606 4822 124 22039 ELECT. 220µF 16V CERAFINE OA22701650 C609 9965 000 04966 FILM 1200pF TP 100V PP OF15122540 C610 FILM 560pF TP 100V PP OF15561540 C611 4822 126 13089 CER. 33pF DA15330110 C612 FILM 680pF J OF15681540 C613 4822 124 22039 ELECT. 220µF 16V CERAFINE OA22701650 C614 4822 124 22039 ELECT. 220µF 16V CERAFINE OA22701650 C616 4822 124 80123 ELECT. 220µF 16V ARS OA22701640 C617 JUMPER C651 FILM 1800pF TP 100V PP OF15182540 C652 4822 126 14166 FILM 330pF TP 100V PP OF15331540 C653 4822 126 10513 CER. 47pF DA15470110 C654 9965 000 00438 FILM 120pF J 100V APSV OF15121540 C659 9965 000 04966 FILM 1200pF TP 100V PP OF15122540 C660 FILM 560pF TP 100V PP OF15561540 C661 4822 126 13089 CER. 33pF DA15330110 C662 FILM 680pF J OF15681540 C666 4822 124 80123 ELECT. 220µF 16V ARS OA22701640 C667 JUMPER C801 4822 124 22243 ELECT. 6800µF 16V RA-2 OA68801620
C802 4822 124 80773 ELECT. 3300µF M 6.3V RA-2 OA33800620 C803 4822 126 11558 CER. 0.1µF Z 50V DA17104110 C805 4822 124 80582 ELECT. 4700µF 16V OA47801620 C806 4822 124 80773 ELECT. 3300µF M 6.3V RA-2 OA33800620 C807 4822 126 11558 CER. 0.1µF Z 50V DA17104110 C808 4822 126 11558 CER. 0.1µF Z 50V DA17104110 C809 4822 124 90364 ELECT. 220µF 16V OA22701620 C822 4822 124 80582 ELECT. 4700µF 16V RA-2 OA47801620 C823 4822 124 40723 ELECT. 2200µF 16V OA22801620 C851 9965 000 00605 ELECT. 3300µF 25V FOR HIFI OB33802510 C852 9965 000 00605 ELECT. 3300µF 25V FOR HIFI OB33802510 C855 4822 124 22237 ELECT. 10µF 16V ARA OA10601650 C856 4822 124 22237 ELECT. 10µF 16V ARA OA10601650 C857 4822 124 11953 ELECT. 470µF M 16V ARA OA47701650 C858 4822 124 11953 ELECT. 470µF M 16V ARA OA47701650
PP16-RESISTORS RN08 JUMPER RT03 4822 111 41355 75Ω ±5% 1/6W GD05750160 R615 5.1kΩ ±5% 1/6W GD05512160 R665 5.1kΩ ±5% 1/6W GD05512160 PP16-RESISTORS (COMMON) CARBON FILM FIXED RES.
±5% 1/6W : R351 R601-R614 R622-R646 R651-R664 R672-R696 R851-R858 RD22-RD27 RD64 RD65 RF51-RF57 RN01-RN06 RN11-RN13 RN61-RN64 RT01RT02 RY56 RY59 RY60
PP16-SEMICONDUCTORS DF51 4822 130 32362 DIODE 1SS176 MA165 1SS254
30V 0.1A HD20002000
DN01 4822 130 82421 DIODE 1D3 1A 200V HD20002710DN02 4822 130 82421 DIODE 1D3 1A 200V HD20002710DN03 4822 130 82421 DIODE 1D3 1A 200V HD20002710DN04 4822 130 82421 DIODE 1D3 1A 200V HD20002710
DN05 4822 130 82421 DIODE 1D3 1A 200V HD20002710 DN06 4822 130 10667 ZENER DIODE 4.7V HD30471000 DN07 4822 130 32362 DIODE 1SS176 MA165 1SS254
30V 0.1A HD20002000
DN11 4822 130 32362 DIODE 1SS176 MA165 1SS254 30V 0.1A
HD20002000
DN12 4822 130 32362 DIODE 1SS176 MA165 1SS254 30V 0.1A
HD20002000
DY11 4822 130 10667 ZENER DIODE 4.7V HD30471000DY51 4822 130 82421 DIODE 1D3 1A/200V HD20002710DY52 4822 130 82421 DIODE 1D3 1A/200V HD20002710
DY65 4822 130 81659 ZENER DIODE 27V HD32701000 D601 4822 130 32362 DIODE 1SS176 MA165 1SS254 HD20002000 D613 30V 0.1A D651 4822 130 32362 DIODE 1SS176 MA165 1SS254 HD20002000 D663 30V 0.1A
D801 DIODE SHOTTKY 11EQS10 HD20055100
D809 1A 100V D821 4822 130 82421 DIODE 1D3 1A 200V HD20002710D822 4822 130 82421 DIODE 1D3 1A 200V HD20002710D851 DIODE SHOTTKY 11EQS1 HD20055100D854 1A 100V
D856 4822 130 33664 ZENER DIODE HZ6L 3 6.2V HD30021010 D857 4822 130 33664 ZENER DIODE HZ6L 3 6.2V HD30021010 D858 4822 130 32362 DIODE 1SS176 MA165 1SS254
30V 0.1A HD20002000
NOTE : "nsp" PART IS LISTED FOR REFERENCE ONLY, MARANTZ WILL NOT SUPPLY THESE PARTS.
53
POS. NO
VERS. COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
POS. NO
VERS.COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
D859 4822 130 32362 DIODE 1SS176 MA165 1SS254 30V 0.1A
HD20002000
QD21 4822 130 61189 DIG.TRS.
DTC114TS/UN4215 10K BA20004000
QD22 4822 130 61189 DIG.TRS. DTC114TS/UN4215 10K
BA20004000
QD23 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 QD24 4822 130 43818 TRS. 2SC2878 A OR BRANK HT328782A0 QD25 4822 130 41947 TRS. 2SC2458 2SC1740S
2SC3199 ETC. HT30001000
QD26 4822 130 41947 TRS. 2SC2458 2SC1740S 2SC3199 ETC.
HT30001000
QD27 4822 130 41947 TRS. 2SC2458 2SC1740S 2SC3199 ETC.
HT30001000
QD61 IC CS4397 DSD/PCD DAC 24BIT 192K
HC10008880
QF51 4822 130 42715 TRS. 2SA1048 2SA933S 2SA1267 ETC.
HT10001000
QF52 4822 130 41947 TRS. 2SC2458 2SC1740S 2SC3199 ETC.
HT30001000
QN01 4822 130 61189 DIG.TRS. DTC114TS/UN4215 10K
BA20004000
QN02 4822 130 41947 TRS. 2SC2458 2SC1740S 2SC3199 ETC.
HT30001000
QN03 4822 130 61189 DIG.TRS. DTC114TS/UN4215 10K
BA20004000
QN04 4822 130 42715 TRS. 2SA1048 2SA933S 2SA1267 ETC.
HT10001000
QN11 4822 130 61189 DIG.TRS. DTC114TS/UN4215 10K
BA20004000
QN12 4822 130 42715 TRS. 2SA1048 2SA933S 2SA1267 ETC.
HT10001000
QN61 4822 130 43818 TRS. 2SC2878 A OR BRANK HT328782A0 QN64 QT01 4822 209 72503 IC 74HC04 HI-SPEED C-MOS HC700400D0 QY61 4822 130 42715 TRS. 2SA1048 2SA933S
2SA1267 ETC. HT10001000
Q601 4822 130 42839 F.E.T.
2SK369 BL VGDS-40V PD0.4WHF203691B0
Q602 4822 130 42839 F.E.T. 2SK369 BL VGDS-40V PD0.4W
HF203691B0
Q603 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q604 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q605 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q606 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q607 5322 130 41844 F.E.T. 2SK170 V LANK HF201701H0 Q608 4822 130 62649 F.E.T. 2SJ74 V LANK HF100741H0 Q609 4822 130 42839 F.E.T.
2SK369 BL VGDS-40V PD0.4WHF203691B0
Q610 4822 130 42839 F.E.T. 2SK369 BL VGDS-40V PD0.4W
HF203691B0
Q611 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q612 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q613 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q614 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q615 5322 130 41844 F.E.T. 2SK170 V LANK HF201701H0 Q616 4822 130 62649 F.E.T. 2SJ74 V LANK HF100741H0 Q617 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q618 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q619 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q620 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q623 Q624 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q651 4822 130 42839 F.E.T.
2SK369 BL VGDS-40V PD0.4WHF203691B0
Q652 4822 130 42839 F.E.T. 2SK369 BL VGDS-40V PD0.4W
HF203691B0
Q653 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q654 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q655 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q656 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q657 5322 130 41844 F.E.T. 2SK170 V LANK HF201701H0 Q658 4822 130 62649 F.E.T. 2SJ74 V LANK HF100741H0 Q659 4822 130 42839 F.E.T.
2SK369 BL VGDS-40V PD0.4WHF203691B0
Q660 4822 130 42839 F.E.T. 2SK369 BL VGDS-40V PD0.4W
HF203691B0
Q661 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q662 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q663 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q664 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q665 5322 130 41844 F.E.T. 2SK170 V LANK HF201701H0 Q666 4822 130 62649 F.E.T. 2SJ74 V LANK HF100741H0 Q667 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q668 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q669 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0 Q670 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q673 Q674 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0
Q801 IC BA05T 5V/1A TO220 HC36905210Q802 IC BA05T 5V/1A TO220 HC36905210Q803 4822 209 61847 IC NJM78M05F HC38505090Q821 4822 209 14623 IC NJM7808F HC38908090
Q851 4822 130 42836 F.E.T. 2SK246 GR HF202461C0Q852 TRS. 2SD1415A HT41415100
Q853 4822 130 43233 TRS. 2SC2240 GR OR BL HT322402A0 Q855 4822 130 42836 F.E.T. 2SK246 GR HF202461C0
Q856 TRS. 2SB1020A HT21020100 Q857 4822 130 42949 TRS. 2SA970 GR OR BL HT109702A0
PP16-MISCELLANEOUS
F801 FUSE T1.25A 250V VDE SEMKO
FS20125200
F821 9965 000 05918 FUSE T800MA 250V VDE SEMCO
FS20080200
F822 9965 000 05918 FUSE T800MA 250V VDE SEMKO
FS20080200
F851 9965 000 05918 FUSE T800MA 250V VDE SEMCO
FS20080200
F852 9965 000 05918 FUSE T800MA 250V VDE SEMCO
FS20080200
JF01 JACK 25 FMN-BTRK 1MM-PITCH TOP
YJ07019490
JF02 JACK 25 FMN-BTRK 1MM-PITCH TOP
YJ07019490
JF03 JACK 21 FMN-BTRK 1MM-PITCH TOP
YJ07019450
JF04 JACK 25 FMN-BTRK 1MM-PITCH TOP
YJ07019490
JF51 4822 267 41009 TERMINAL 2P CINCH PIN JACK
YT02020890
JT02 4822 290 81638 TERMINAL 14X14 RA 1L1P BLK AU FLM-GND
YT02010790
JT03 OPT. CONNECTOR JFJ300 OPT OUTPUT
YJ15000210
J605 TERMINAL 1P CINCH YKC21-3725 WHITE L-CH
YT02011240
J606 TERMINAL 1P CINCH YKC21-3724 RED R-CH
YT02011230
LT01 4822 142 60422 PULSE TRANSF. TPS247MN-0386AN
TP41042030
LT02 FERRITE BEAD BL02RN2-R62T2
FC90050130
NOTE : "nsp" PART IS LISTED FOR REFERENCE ONLY, MARANTZ WILL NOT SUPPLY THESE PARTS.
54
POS. NO
VERS. COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
POS. NO
VERS.COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
L801 FERRITE BEAD BL02RN2-R62T2
FC90050130
L802 FERRITE BEAD BL02RN2-R62T2
FC90050130
L803 FERRITE BEAD BL02RN2-R62T2
FC90050130
SF51 4822 277 21559 SLIDE SWITCH RC-5 INT/EXT SS02021150 S351 4822 277 21559 SLIDE SWITCH
FILTER STANDARD/CUSTOM SS02021150
PR16-HEADPHONE
CIRCUIT BOARD
PR16-CAPACITORS C901 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 C902 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 C903 4822 124 90364 ELECT. 220µF M 16V RA-2 OA22701620 C904 4822 124 90364 ELECT. 220µF M 16V RA-2 OA22701620 C905 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 C906 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 C907 4822 122 33639 CER. 1000pF UP050B102K-A DA16102110 C908 4822 122 33639 CER. 1000pF UP050B102K-A DA16102110
PR16-RESISTOR R930 VAR. 10Ω RK09L12B0
B D-CUT NORMAL RM01031220
PV04-RESISTORS (COMMON) CARBON FILM FIXED RES.
±5% 1/6W : R901-R926 RY01-RY21
PR16-SEMICONDUCTORS D901 4822 130 32362 DIODE 1SS176 MA165 1SS254 HD20002000 D904 30V 0.1A Q901 4822 209 31153 IC DUAL LOW NOISE OP-AMP
NJM2114D HC10111090
Q903 TRS. 2SC2120 Y HT321201B0 Q904 TRS. 2SC2120 Y HT321201B0 Q905 TRS. 2SA950 GR R HT109501A0 Q906 TRS. 2SA950 GR R HT109501A0 Q907 4822 130 43818 TRS. 2SC2878 A OR BRANK HT328782A0 Q910
PR16-MISCELLANEOUS J903 9965 000 01662 H.P JACK HLJ0540-01-410 BLK YJ01003870 L901 FERRITE BEAD
BL02RN2-R62T2 FC90050130
L902 FERRITE BEAD BL02RN2-R62T2
FC90050130
PV16-SERVO PWB PV16-CAPACITORS CF02 4822 126 11687 CER. 0.1µF 16V DK98104200 CF03 4822 126 11687 CER. 0.1µF 16V DK98104200 CF04 4822 126 13303 CER. 1µF 10V F DK98105200 CF05 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 CF06 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 CF07 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 CF08 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 CF09 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 CF12 CF13 4822 126 12339 CER. 2200pF GR39 DK96222300 C101 TANTL CHIP 4.7µF 10V EY47501050 C102 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C103 4822 124 11074 TANTL CHIP 10µF 16V EY10601620 C104 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200
C107 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C108 4822 124 11074 TANTL CHIP 10µF 16V EY10601620 C109 4822 124 11074 TANTL CHIP 10µF 16V EY10601620 C110 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C111 TANTL CHIP 33µF 10V EY33601020 C112 5322 126 11578 CER. 1000pF ±10% B 50V DK96102300 C113 4822 124 11074 TANTL CHIP 10µF 16V EY10601620 C114 4822 124 11074 TANTL CHIP 10µF 16V EY10601620 C115 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C116 TANTL CHIP 33µF 10V EY33601020 C117 5322 126 11578 CER. 1000pF ±10% B 50V DK96102300 C118 4822 124 11074 TANTL CHIP 10µF 16V EY10601620 C119 4822 124 11074 TANTL CHIP 10µF 16V EY10601620 C120 4822 126 13303 CER. 1µF 10V F DK98105200 C121 4822 124 11131 TANTL CHIP 47µF 6.3V EY47600620 C122 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C123 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C124 5322 126 11578 CER. 1000pF ±10% B 50V DK96102300 C125 5322 126 11578 CER. 1000pF ±10% B 50V DK96102300 C126 4822 126 12339 CER. 2200pF GR39 DK96222300 C129 C130 4822 122 33761 CER. 22pF ±5% CG 50V GR39 DD95220300 C133 C134 4822 126 13267 CER. 330pF GR39 DK96331300 C135 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C136 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C137 CER. 0.033µF ± 10% DK96333200 C138 CER. 0.033µF ± 10% DK96333200 C139 CER. 150pF ±5% CG 50V GR39 DD95151300 C140 4822 126 13396 CER. 0.047µF ±10% X7R 16V DK96473200 C141 4822 126 13837 CER. 0.1µF ±10% B 10V DK96104200 C142 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C143 4822 126 13303 CER. 1µF 10V F DK98105200 C144 4822 126 13837 CER. 0.1µF ±10% B 10V DK96104200 C145 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C146 4822 124 11131 TANTL CHIP 47µF 6.3V EY47600620 C147 4822 126 13837 CER. 0.1µF ±10% B 10V DK96104200 C148 4822 126 13837 CER. 0.1µF ±10% B 10V DK96104200 C149 4822 126 13837 CER. 0.1µF ±10% B 10V DK96104200 C150 4822 126 12495 CER. 1500pF GR39 DK96152300 C151 4822 126 12495 CER. 1500pF GR39 DK96152300 C152 5322 126 11583 CER. 0.01µF ±10% B 25V DK96103200 C153 5322 126 11579 CER. 3300pF GR39 DK96332300 C154 5322 126 11579 CER. 3300pF GR39 DK96332300 C155 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C156 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C157 4822 126 13837 CER. 0.1µF ±10% B 10V DK96104200 C158 CER. 1pF ±0.25pF CK 50V DD90010300 C159 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C160 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C161 CER. 1pF ±0.25pF CK 50V DD90010300 C162 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C163 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C164 4822 126 13396 CER. 0.047µF ±10% X7R 16V DK96473200 C165 4822 126 13267 CER. 330pF GR39 DK96331300 C166 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C167 4822 124 11074 TANTL CHIP 10µF 16V EY10601620 C168 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C169 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C170 CER. 150pF ±5% CG 50V GR39 DD95151300 C171 4822 124 11074 TANTL CHIP 10µF 16V EY10601620 C172 4822 126 13837 CER. 0.1µF ±10% B 10V DK96104200 C173 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C174 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C175 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620
NOTE : "nsp" PART IS LISTED FOR REFERENCE ONLY, MARANTZ WILL NOT SUPPLY THESE PARTS.
55
POS. NO
VERS. COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
POS. NO
VERS.COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
C176 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C179 C180 CER. 270pF ± 5% DD95271300 C181 4822 126 13396 CER. 0.047µF ±10% X7R 16V DK96473200 C182 4822 126 11568 CER. 470pF GR39 DK96471300 C183 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C184 4822 126 13303 CER. 1µF 10V F DK98105200 C185 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C186 4822 126 14417 CER. 0.01µF ±10% 50V DK96103300 C187 CER. 0.47µF 10V B BJ ±10% DK96474200 C188 4822 126 12495 CER. 1500pF GR39 DK96152300 C189 4822 126 13396 CER. 0.047µF ±10% X7R 16V DK96473200 C190 4822 126 11682 CER. 220pF GR39 DK96221300 C191 4822 126 13303 CER. 1µF 10V F DK98105200 C192 4822 126 13837 CER. 0.1µF ±10% B 10V DK96104200 C193 4822 126 13303 CER. 1µF 10V F DK98105200 C194 4822 122 33741 CER. 10pF ±0.5pF CH 50V DD91100300 C195 4822 126 12497 CER. 7pF ±0.5pF CH 50V GR39 DD91070300 C196 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C197 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C198 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C199 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C200 4822 126 11687 CER. 0.1µF 16V DK98104200 C201 4822 124 11074 TANTL CHIP 10µF 16V EY10601620 C202 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C203 4822 126 14249 CER. 560pF DK96561300 C204 4822 126 12339 CER. 2200pF GR39 DK96222300 C205 4822 126 14249 CER. 560pF DK96561300 C206 4822 126 12339 CER. 2200pF GR39 DK96222300 C207 4822 126 11682 CER. 220pF GR39 DK96221300 C208 4822 126 13837 CER. 0.1µF 16V DK96104200 C209 4822 126 11682 CER. 220pF GR39 DK96221300 C210 4822 126 13837 CER. 0.1µF 16V DK96104200 C211 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C212 4822 124 41842 TANTL CHIP 47µF 16V EY47601620 C213 4822 124 41842 TANTL CHIP 47µF 16V EY47601620 C214 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C215 4822 126 14417 CER. 0.01µF 16V DK96103300 C216 9965 000 03102 CER. 0.068µF ± 10% DK96683200 C217 4822 126 12339 CER. 2200pF GR39 DK96222300 C218 9965 000 03102 CER. 0.068µF ± 10% DK96683200 C219 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C220 4822 124 11074 TANTL CHIP 10µF 16V EY10601620 C222 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C225 4822 126 14417 CER. 0.01µF ±10% 50V DK96103300 C226 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C227 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C228 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C229 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C230 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C231 4822 124 10772 TANTL CHIP 100µF 6.3V EY10700620 C232 CER. 2pF ±0.25pF CK 50V DD90020300 C233 CER. 2pF ±0.25pF CK 50V DD90020300 C234 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C235 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C236 CER. 0.1µF ±10% B 10V DK06104200 C237 CER. 0.1µF ±10% B 10V DK06104200 C238 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C241 C242 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C249 C250 4822 126 13303 CER. 1µF 10V F DK98105200 C251 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620
C252 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C255 C256 CER. 0.1µF ±10% B 10V DK06104200 C257 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C258 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C259 4822 126 13303 CER. 1µF 10V F DK98105200 C260 4822 124 10772 TANTL CHIP 100µF 6.3V EY10700620 C261 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C262 4822 126 13837 CER. 0.1µF ±10% B 10V DK96104200 C263 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C264 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C268 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C269 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C270 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C271 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C272 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C273 CER. 0.1µF ±10% B 10V DK06104200 C277 C278 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C279 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C280 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C281 CER. 0.1µF ±10% B 10V DK06104200 C282 CER. 0.1µF ±10% B 10V DK06104200 C283 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C284 4822 126 14417 CER. 0.01µF ±10% 50V DK96103300 C285 CER. 0.47µF 10V B BJ ±10% DK96474200 C286 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C287 4822 126 11685 CER. 4700pF ±10% B 50V DK96472300 C289 4822 126 14417 CER. 0.01µF ±10% 50V DK96103300 C290 4822 126 14417 CER. 0.01µF ±10% 50V DK96103300 C291 4822 126 13303 CER. 1µF 10V F DK98105200 C292 4822 126 11682 CER. 220pF GR39 DK96221300 C293 CER. 0.1µF ±10% B 10V DK06104200 C294 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C295 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C296 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C297 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C301 5322 126 11578 CER. 1000pF ±10% B 50V DK96102300 C302 4822 126 13396 CER. 0.047µF ±10% X7R 16V DK96473200 C303 CER. 0.47µF 10V B BJ ±10% DK96474200 C304 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C308 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C309 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C310 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C311 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C312 CER. 0.1µF ±10% B 10V DK06104200 C313 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C315 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C316 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C317 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C320 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C321 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C322 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C323 4822 122 33761 CER. 22pF ±5% CG 50V GR39 DD95220300 C324 4822 126 11759 CER. 100pF ±5% CG 50V GR39 DD95101300 C336 4822 124 10772 TANTL CHIP 100µF 6.3V EY10700620 C337 4822 124 10772 TANTL CHIP 100µF 6.3V EY10700620 C339 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C340 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C342 4822 124 10772 TANTL CHIP 100µF 6.3V EY10700620 C343 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C344 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200 C345 4822 124 10772 TANTL CHIP 100µF 6.3V EY10700620 C346 4822 126 11687 CER. 0.1µF GRM39F104Z16 DK98104200
NOTE : "nsp" PART IS LISTED FOR REFERENCE ONLY, MARANTZ WILL NOT SUPPLY THESE PARTS.
56
POS. NO
VERS. COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
POS. NO
VERS.COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
C347 4822 124 10772 TANTL CHIP 100µF 6.3V EY10700620 C348 4822 124 11226 TANTL CHIP 22µF 6.3V EY22600620 C362 TANTL CHIP 4.7µF 10V EY47501050 C363 4822 126 13837 CER. 0.1µF 16V DK96104200
PV16-RESISTORS RF01 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 RF02 4822 051 30334 CHIP 330kΩ ±5% 1/16W NN05334610 RF03 4822 051 30473 CHIP 47kΩ ±5% 1/16W NN05473610 RF04 4822 051 30473 CHIP 47kΩ ±5% 1/16W NN05473610 RF05 4822 051 30473 CHIP 47kΩ ±5% 1/16W NN05473610 RF06 4822 051 30473 CHIP 47kΩ ±5% 1/16W NN05473610 RF07 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 RF08 CHIP 100kΩ ±5% 1/16W NN05104610 RF09 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 RF10 CHIP 100kΩ ±5% 1/16W NN05104610 RF12 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 RF13 4822 116 82487 CHIP 0Ω ±5% 1/16W NN05000610 RF14 4822 051 30473 CHIP 47kΩ ±5% 1/16W NN05473610 RF18 RF19 4822 116 82487 CHIP 0Ω ±5% 1/16W NN05000610 RF20 4822 051 30473 CHIP 47kΩ ±5% 1/16W NN05473610 RF21 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 RF22 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 RF23 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R101 CHIP 22kΩ ±5% 1/16W NN05223610 R102 CHIP 22kΩ ±5% 1/16W NN05223610 R103 CHIP 22kΩ ±5% 1/16W NN05223610 R104 CHIP 11kΩ ±5% 1/16W NN05113610 R105 CHIP 22kΩ ±5% 1/16W NN05223610 R106 CHIP 22kΩ ±5% 1/16W NN05223610 R107 CHIP 22kΩ ±5% 1/16W NN05223610 R108 CHIP 11kΩ ±5% 1/16W NN05113610 R109 4822 051 30471 CHIP 470Ω ±5% 1/16W NN05471610 R110 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R111 4822 051 30471 CHIP 470Ω ±5% 1/16W NN05471610 R112 4822 051 30339 CHIP 33Ω ±5% 1/16W NN05330610 R113 4822 051 30339 CHIP 33Ω ±5% 1/16W NN05330610 R114 4822 051 30333 CHIP 33kΩ ±5% 1/16W NN05333610 R115 4822 051 30471 CHIP 470Ω ±5% 1/16W NN05471610 R116 4822 051 30339 CHIP 33Ω ±5% 1/16W NN05330610 R117 4822 051 30339 CHIP 33Ω ±5% 1/16W NN05330610 R118 4822 051 30333 CHIP 33kΩ ±5% 1/16W NN05333610 R119 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 R121 4822 116 82487 CHIP 0Ω ±5% 1/16W NN05000610 R123 4822 117 10154 CHIP 10MΩ ±5% 1/16W NN05106610 R125 4822 111 91136 CHIP 12kΩ ±1% 1/10W NI01123110 R126 4822 116 82487 CHIP 0Ω ±5% 1/16W NN05000610 R128 CHIP 22kΩ ±5% 1/16W NN05223610 R129 CHIP 22kΩ ±5% 1/16W NN05223610 R130 CHIP MCR03EZHUJ363
2120 108 92212 NN05363610
R131 4822 051 30822 CHIP 8.2kΩ ±5% 1/16W NN05822610 R132 CHIP 22kΩ ±5% 1/16W NN05223610 R133 4822 051 30473 CHIP 47kΩ ±5% 1/16W NN05473610 R134 4822 051 30153 CHIP 15kΩ ±5% 1/16W NN05153610 R135 CHIP 51Ω ±5% 1/16W NN05510610 R136 CHIP 51Ω ±5% 1/16W NN05510610 R137 CHIP 51Ω ±5% 1/16W NN05510610 R138 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R139 CHIP MCR03EZHUJ202
2120 108 92178 NN05202610
R140 CHIP MCR03EZHUJ202 2120 108 92178
NN05202610
R141 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R142 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R143 4822 051 30332 CHIP 3.3kΩ ±5% 1/16W NN05332610
R144 4822 051 30334 CHIP 330kΩ ±5% 1/16W NN05334610 R145 CHIP 3kΩ ±5% 1/16W NN05302610 R146 CHIP 22kΩ ±5% 1/16W NN05223610 R147 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R148 4822 051 30332 CHIP 3.3kΩ ±5% 1/16W NN05332610 R149 4822 051 30334 CHIP 330kΩ ±5% 1/16W NN05334610 R150 CHIP 3kΩ ±5% 1/16W NN05302610 R151 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R152 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R153 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R154 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R155 4822 051 30334 CHIP 330kΩ ±5% 1/16W NN05334610 R156 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R157 4822 051 30152 CHIP 1.5kΩ ±5% 1/16W NN05152610 R158 4822 051 30152 CHIP 1.5kΩ ±5% 1/16W NN05152610 R159 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R160 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R161 4822 051 30105 CHIP 1MΩ ±5% 1/16W NN05105610 R162 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R163 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R164 4822 051 30105 CHIP 1MΩ ±5% 1/16W NN05105610 R165 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R167 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R168 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R169 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R170 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R171 4822 051 30123 CHIP 12kΩ ±5% 1/16W NN05123610 R172 4822 051 30473 CHIP 47kΩ ±5% 1/16W NN05473610 R173 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R174 4822 051 30333 CHIP 33kΩ ±5% 1/16W NN05333610 R175 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R176 CHIP 100kΩ ±5% 1/16W NN05104610 R177 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R178 4822 051 30332 CHIP 3.3kΩ ±5% 1/16W NN05332610 R179 4822 051 30332 CHIP 3.3kΩ ±5% 1/16W NN05332610 R180 4822 051 30474 CHIP 470kΩ ±5% 1/16W NN05474610 R181 4822 051 30105 CHIP 1MΩ ±5% 1/16W NN05105610 R182 4822 051 30474 CHIP 470kΩ ±5% 1/16W NN05474610 R183 R185 4822 117 11294 CHIP 100Ω ±5% 1/16W NP05101610 R186 R187 4822 117 11294 CHIP 100Ω ±5% 1/16W NP05101610 R188 4822 117 11294 CHIP 100Ω ±5% 1/16W NP05101610 R189 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R190 4822 117 11294 CHIP 100Ω ±5% 1/16W NP05101610 R191 4822 117 11294 CHIP 100Ω ±5% 1/16W NP05101610 R192 CHIP 220Ω ±5% 1/16W NN05221610 R193 4822 051 30109 CHIP 10Ω ±5% 1/16W NN05100610 R195 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 R196 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 R197 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 R201 4822 116 83215 CHIP 5.6kΩ ±5% 1/16W NN05562610 R202 4822 051 30333 CHIP 33kΩ ±5% 1/16W NN05333610 R203 4822 116 83211 CHIP 1.8kΩ ±5% 1/16W NN05182610 R204 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 R205 4822 116 83211 CHIP 1.8kΩ ±5% 1/16W NN05182610 R206 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 R207 4822 051 30333 CHIP 33kΩ ±5% 1/16W NN05333610 R208 4822 116 83215 CHIP 5.6kΩ ±5% 1/16W NN05562610 R209 4822 051 30563 CHIP 56kΩ ±5% 1/16W NN05563610 R210 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R211 4822 051 30563 CHIP 56kΩ ±5% 1/16W NN05563610 R212 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R213 4822 051 30563 CHIP 56kΩ ±5% 1/16W NN05563610 R214 4822 051 30473 CHIP 47kΩ ±5% 1/16W NN05473610 R215 4822 051 30563 CHIP 56kΩ ±5% 1/16W NN05563610 R216 4822 051 30473 CHIP 47kΩ ±5% 1/16W NN05473610
NOTE : "nsp" PART IS LISTED FOR REFERENCE ONLY, MARANTZ WILL NOT SUPPLY THESE PARTS.
57
POS. NO
VERS. COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
POS. NO
VERS.COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
R217 4822 051 30473 CHIP 47k ±5% 1/16W NN05473610 R218 4822 051 30273 CHIP 27k ±5% 1/16W NN05273610 R219 4822 051 30273 CHIP 27k ±5% 1/16W NN05273610 R220 4822 051 30473 CHIP 47k ±5% 1/16W NN05473610 R221 CHIP 22k ±5% 1/16W NN05223610 R222 4822 051 30154 CHIP 150k ±5% 1/16W NN05154610 R223 4822 051 30154 CHIP 150k ±5% 1/16W NN05154610 R224 4822 051 30102 CHIP 1k ±5% 1/16W NN05102610 R225 4822 051 30102 CHIP 1k ±5% 1/16W NN05102610 R226 CHIP 22k ±5% 1/16W NN05223610 R227 4822 051 30153 CHIP 15k ±5% 1/16W NN05153610 R228 CHIP 5.1k ±5% 1/16W NN0551261R R229 CHIP MCR03EZHUJ202
2120 108 92178 NN05202610
R230 CHIP MCR03EZHUJ202 2120 108 92178
NN05202610
R231 CHIP 3k ±5% 1/16W NN05302610 R232 CHIP 3k ±5% 1/16W NN05302610 R234 4822 116 82487 CHIP 0 ±5% 1/16W NN05000610 R235 4822 117 11296 CHIP 10k ±5% 1/16W NP05103610 R236 4822 051 30103 CHIP 10k ±5% 1/16W NN05103610 R237 4822 117 11296 CHIP 10k ±5% 1/16W NP05103610 R242 R243 4822 051 30103 CHIP 10k ±5% 1/16W NN05103610 R251 4822 051 30103 CHIP 10k ±5% 1/16W NN05103610 R252 4822 051 30103 CHIP 10k ±5% 1/16W NN05103610 R253 4822 051 30103 CHIP 10k ±5% 1/16W NN05103610 R254 4822 051 30473 CHIP 47k ±5% 1/16W NN05473610 R255 CHIP 15k ±1% 1/16W NM11502020 R256 CHIP 15k ±1% 1/16W NM11502020 R259 4822 116 82487 CHIP 0 ±5% 1/16W NN05000610 R261 4822 051 30333 CHIP 33k ±5% 1/16W NN05333610 R262 4822 051 30102 CHIP 1k ±5% 1/16W NN05102610 R263 4822 051 30102 CHIP 1k ±5% 1/16W NN05102610 R264 CHIP 22k ±5% 1/16W NN05223610 R265 4822 051 30102 CHIP 1k ±5% 1/16W NN05102610 R266 4822 051 30682 CHIP 6.8k ±5% 1/16W NN05682610 R267 CHIP 22k ±5% 1/16W NN05223610 R271 4822 051 30472 CHIP 4.7k ±5% 1/16W NN05472610 R272 CHIP 9.1k ±5% 1/16W NN05912610 R273 4822 116 82487 CHIP 0 ±5% 1/16W NN05000610 R274 4822 051 30103 CHIP 10k ±5% 1/16W NN05103610 R275 4822 051 30103 CHIP 10k ±5% 1/16W NN05103610 R276 4822 051 30103 CHIP 10k ±5% 1/16W NN05103610 R277 4822 051 30103 CHIP 10k ±5% 1/16W NN05103610 R278 4822 051 30472 CHIP 4.7k ±5% 1/16W NN05472610 R279 4822 051 30472 CHIP 4.7k ±5% 1/16W NN05472610 R282 CHIP 22k ±5% 1/16W NN05223610 R283 4822 051 30103 CHIP 10k ±5% 1/16W NN05103610 R285 4822 117 11294 CHIP 100 ±5% 1/16W NP05101610 R294 R295 CHIP 100k ±5% 1/16W NN05104610 R296 4822 117 11296 CHIP 10k ±5% 1/16W NP05103610 R297 CHIP 4.3k ±5% 1/16W NN05432610 R301 4822 116 83215 CHIP 5.6k ±5% 1/16W NN05562610 R302 4822 051 30103 CHIP 10k ±5% 1/16W NN05103610 R303 4822 051 30222 CHIP 2.2k ±5% 1/16W NN05222610 R304 4822 051 30103 CHIP 10k ±5% 1/16W NN05103610 R305 4822 051 30154 CHIP 150k ±5% 1/16W NN05154610 R306 4822 051 30474 CHIP 470k ±5% 1/16W NN05474610 R307 4822 051 30101 CHIP 100 ±5% 1/16W NN05101610 R309 CHIP 22k ±5% 1/16W NN05223610 R310 CHIP 22k ±5% 1/16W NN05223610 R311 4822 051 30473 CHIP 47k ±5% 1/16W NN05473610 R312 4822 051 30102 CHIP 1k ±5% 1/16W NN05102610
R313 4822 051 30105 CHIP 1M ±5% 1/16W NN05105610 R314 4822 051 30822 CHIP 8.2k ±5% 1/16W NN05822610 R315 CHIP 22k ±5% 1/16W NN05223610 R316 4822 051 30103 CHIP 10k ±5% 1/16W NN05103610 R317 4822 116 82487 CHIP 0 ±5% 1/16W NN05000610 R324 4822 117 11294 CHIP 100 ±5% 1/16W NP05101610 R339 R340 4822 051 30472 CHIP 4.7k ±5% 1/16W NN05472610 R341 4822 051 30222 CHIP 2.2k ±5% 1/16W NN05222610 R342 4822 051 30472 CHIP 4.7k ±5% 1/16W NN05472610 R343 4822 051 30222 CHIP 2.2k ±5% 1/16W NN05222610 R344 4822 051 30103 CHIP 10k ±5% 1/16W NN05103610 R347 4822 116 82487 CHIP 0 ±5% 1/16W NN05000610 R348 4822 051 30101 CHIP 100 ±5% 1/16W NN05101610 R349 4822 116 82487 CHIP 0 ±5% 1/16W NN05000610 R350 4822 051 30109 CHIP 10 ±5% 1/16W NN05100610 R351 CHIP 22k ±5% 1/16W NN05223610 R354 4822 051 30479 CHIP 47 ±5% 1/16W NN05470610 R360 R361 4822 051 30479 CHIP 47 ±5% 1/16W NN05470610 R372 4822 116 82487 CHIP 0 ±5% 1/16W NN05000610 R376 4822 116 82487 CHIP 0 ±5% 1/16W NN05000610 R378 4822 051 xxxxx CHIP 68k ±5% 1/16W NN05683610
PV16-SEMICONDUCTORS D104 4822 130 80522 CHIP DIODE 1SS300 DAP202U HZ21006000 D105 4822 130 83715 CHIP DIODE 1SS301 DAN202U HZ21005000 D106 4822 130 83715 CHIP DIODE 1SS301 DAN202U HZ21005000 D109 CHIP DIODE EC105DS2TE12L HZ20003100
QF01 MICROPROCESSOR
MB90553A HU01AKF00F
QF02 IC S-80843ALNP-EA7-T2 4.3V SC82
HC10098530
QF03 4822 130 60856 DIG.TRS. DTC144EC BA20021210 QF04 IC AT24C04N-10SI-2.5 HC10033990 Q101 IC CXD1881R RF AMP HC10077250 Q102 4822 209 33563 IC NJM2115V OP-AMP HC10147090 Q103 4822 130 42734 TRS. CHIP 2SB798 DL DK HX207982A0 Q104 4822 130 42734 TRS. CHIP 2SB798 DL DK HX207982A0 Q105 4822 130 42734 TRS. CHIP 2SB798 DL DK HX207982A0 Q107 F.E.T. 2SK3019 SWITCHING HF230192A0 Q108 F.E.T. 2SK3019 SWITCHING HF230192A0 Q109 IC NJM2137V OP-AMP HC12237090 Q110 IC AD8062
HI-SPEED OP-AMP HC10209990
Q111 4822 209 33563 IC NJM2115V OP-AMP HC10147090 Q112 IC NJM2903V COMPARATOR HC12238090 Q113 4822 209 33563 IC NJM2115V OP-AMP HC10147090 Q114 IC NJM2903V COMPARATOR HC12238090 Q115 IC TC74LVX4053FT
ANALOG SW HC010105K0
Q116 IC CXD3068Q CD DECODER HC10080250 Q117 IC BA5981FP
MOTOR DRIVER-4CH HC10222210
Q118 IC NJM3414AV DUAL OP-AMP SSOP8P
HC12239090
Q119 4822 209 32984 IC TC7SHU04F HC10427050 Q121 IC AD8062
HI-SPEED OP-AMP HC10209990
Q122 IC EM636165TS-7 S-DRAM 2B 16MBYT
HC10156990
Q123 IC CXD2752R SACD DECODER HC10079250 Q124 IC CXD1882R
DVD DECORDER HC10078250
Q125 MICROPROCESSOR CXPQ71000 CONTROL-UPC
HU01AKY100
NOTE : "nsp" PART IS LISTED FOR REFERENCE ONLY, MARANTZ WILL NOT SUPPLY THESE PARTS.
58
POS. NO
VERS. COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
POS. NO
VERS.COLOR
PART NO. (FOR PCS)
DESCRIPTION PART NO.(MJI)
Q126 IC TC74VHC157FT HC005805K0 Q127 IC M11L16161SA-45T
EDO-DRAM 16M HC10210990
Q128 4822 130 61199 DIG.TRS. DTA144EU RΩ BA10014210 Q129 4822 130 60856 DIG.TRS. DTC144EC BA20021210 Q132 IC TC74VHC541FT HC006105K0 Q133 IC TC74VHC541FT HC006105K0 Q134 4822 130 60856 DIG.TRS. DTC144EC BA20021210 Q135 IC TC7WH74FU
D-TYPE FLIP FLOP HC007905K0
Q136 IC TC7WH08FU 2-INPUT AND GATE
HC010005K0
Q137 IC TC74VHC541FT HC006105K0 Q138 4822 130 60856 DIG.TRS. DTC144EC BA20021210 Q139 IC TC74VHC86FT HC008405K0 Q140 IC TC74VHC00FT HC009305K0 Q141 IC TC74VHC74FT D-FF HC005605K0 Q151 IC NJM2391DL1-33 1A 3.3V HC98A33090 Q152 IC NJM2391DL1-33 1A 3.3V HC98A33090 Q153 IC NJM2391DL1-26 1A 2.6V HC98A26090 Q155 4822 130 61541 TRS. CHIP 2SC4116 HX341162B0 Q156 4822 130 43954 TRS. CHIP 2SD999 DL DK HX409992A0 Q157 4822 130 42734 TRS. CHIP 2SB798 DL DK HX207982A0 Q158 4822 130 61541 TRS. CHIP 2SC4116 HX341162B0 Q159 4822 130 43954 TRS. CHIP 2SD999 DL DK HX409992A0 Q160 4822 130 42734 TRS. CHIP 2SB798 DL DK HX207982A0
PV16-MISCELLANEOUS J101 JACK 9610S-25D
25PIN 1MM CONNECTOR YJ07060150
J102 JACK S6B-PH-SM3-TB 6P PH SIDE
YJ07018560
J103 JACK 9610S-09D 9PIN 1MM CONNECTOR
YJ07060140
J104 JACK 06FFS-SP-TF 6PIN 1.25MM
YJ07060130
J105 JACK 9610S-25D 25PIN 1MM CONNECTOR
YJ07060150
J106 JACK 9610S-25D 25PIN 1MM CONNECTOR
YJ07060150
J109 JACK S4B-PH-SM3-TB PH 4P SMD
YJ07018540
J110 JACK 9610S-09D 9PIN 1MM CONNECTOR
YJ07060140
L101 9965 000 03109 FERRITE CORE FB M J2125HM330-T
FC90020100
L102 9965 000 03109 FERRITE CORE FB M J2125HM330-T
FC90020100
L103 4822 157 70272 CHIP INDUCTER 47UH LU12473010 L104 4822 157 70272 CHIP INDUCTER 47UH LU12473010 L105 4822 157 70272 CHIP INDUCTER 47UH LU12473010 L109 9965 000 03109 FERRITE CORE
FB M J2125HM330-T FC90020100
L110 9965 000 03109 FERRITE CORE FB M J2125HM330-T
FC90020100
L111 9965 000 03109 FERRITE CORE FB M J2125HM330-T
FC90020100
L120 9965 000 03109 FERRITE CORE FC90020100 L129 FB M J2125HM330-T L132 9965 000 03109 FERRITE CORE
FB M J2125HM330-T FC90020100
L133 9965 000 03109 FERRITE CORE FB M J2125HM330-T
FC90020100
XF01 CERAMIC VIB.
CSTCC8.00MG-TC 8.000MHz FQ08004070
X101 CRYSTAL XTAL 33.8688MHz JX33001470 X103 CERAMIC VIB.
CSTCW-X SMD TYPE 20.0MHz FQ02005060
PY16-DISPLAY SW CIRCUIT BOARD
PY16-CAPACITORS CY01 4822 124 21901 ELECT. 47µF 6.3V EJ47600610 CY02 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CY03 4822 126 10362 CER. 22pF DA15220110 CY04 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CY05 4822 126 11558 CER. 0.1µF Z 50V DA17104110 CY06 4822 124 21901 ELECT. 47µF 6.3V EJ47600610
PY16-RESISTORS R501 JUMPER R503 JUMPER
PY16-SEMICONDUCTORS DY01 4822 130 80326 L.E.D. LT3D8B RED 3O HI10062320 DY04 QY01 IC FL DRIVER LC75712NE HC10416030 QY02 4822 130 61227 DIG.TRS. BA10001000 QY06 DTA114ES/UN4111 10K 10K
PY16-MISCELLANEOUS JY01 JACK 21FMN-BTRK
21P 1MM FFC YJ07019450
SY01 4822 276 14009 PUSH SWITCH SP01013310 SY10 SKQNAE H/5MM 160GF VX01 DISPLAY UNIT
FTD 13-ST-35G FUTABA HQ31302410
ZY01 4822 130 11494 PHOTO UNIT RPM6936-V4 IR SENSOR
HW10004210
PY26-STANDBY LED CIRCUIT BOARD
DY05 4822 130 80326 L.E.D. LT3D8B RED 3O HI10062320
SY11 4822 276 14009 PUSH SWITCH
SKQNAE H/5MM 160GF SP01013310