For details, refer to "Important Check Points for Good Servicing".
PIONEER CORPORATION 4-1, Meguro 1-chome, Meguro-ku, Tokyo 153-8654, Japan
PIONEER ELECTRONICS (USA) INC. P.O. Box 1760, Long Beach, CA 90801-1760, U.S.A.
PIONEER EUROPE NV Haven 1087, Keetberglaan 1, 9120 Melsele, Belgium
PIONEER ELECTRONICS ASIACENTRE PTE. LTD. 253 Alexandra Road, #04-01, Singapore 159936
PIONEER CORPORATION 2007
K-ZZA. MAR. 2007 Printed in Japan
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SAFETY INFORMATION
This service manual is intended for qualified service technicians; it is not meant for the casual do-it-yourselfer.
Qualified technicians have the necessary test equipment and tools, and have been trained to properly and safely
A
repair complex products such as those covered by this manual.
Improperly performed repairs can adversely affect the safety and reliability of the product and may void the warranty.
If you are not qualified to perform the repair of this product properly and safely, you should not risk trying to do so
and refer the repair to a qualified service technician.
- Safety Precautions for those who Service this Unit.
When checking or adjusting the emitting power of the laser diode exercise caution in order to get safe, reliable
results.
B
Caution:
1. During repair or tests, minimum distance of 13 cm from the focus lens must be kept.
2. During repair or tests, do not view laser beam for 10 seconds or longer.
CAUTION:
USE OF CONTROLS OR ADJUSTMENTS OR PERFORMANCE OF PROCEDURES OTHER THAN THOSE
SPECIFIED HEREIN MAY RESULT IN HAZARDOUS RADIATION EXPOSURE.
C
CLASS 1
D
The AEL (accessible emission level )of the laser power output is less than CLASS 1
but the laser component is capable of emitting radiation exceeding the limit for
CLASS 1.
E
A specially instructed person should do servicing operation of the apparatus.
LASER PRODUCT
WARNING!
Laser diode characteristics
Wave length : 785 nm to 814 nm
Maximum output : 1 190 W(Emitting period : unlimited)
Additional Laser Caution
F
Transistors Q101 in PCB drive the laser diodes.
When Q101 is shorted between their terminals, the laser diodes will radiate beam.
If the top cover is removed with no disc loaded while such short-circuit is continued,
the naked eyes may be exposed to the laser beam.
2
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DEH-P65BT/XN/EW5
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- Service Precaution
1. You should conform to the regulations governing
the product (safety, radio and noise, and other
regulations), and should keep the safety during
servicing by following the safety instructions
described in this manual.
2. Before disassembling the unit, be sure to turn off
the power. Unplugging and plugging the connectors
during power-on mode may damage the ICs inside
the unit.
3. To protect the pickup unit from electrostatic discharge
during servicing, take an appropriate treatment
(shorting-solder) by referring to "the DISASSEMBLY".
4. After replacing the pickup unit, be sure to check the
grating.
5. Be careful in handling ICs. Some ICs such as MOS
type are so fragile that they can be damaged by
electrostatic induction.
6. When diagnosing a product, take care of its heated
portion.
Holder (CND3826)
Bluetooth Unit
7. Bluetooth has a unique function that differs from
conventional remote control unit cord. Operation is
capable by manipulating the mainframe, the special
remote control unit separately sold on the market
(CD-SR110, CD-R510) or the remote control unit
attached to DEH-P70BT/EW.
A
B
C
D
E
F
56
DEH-P65BT/XN/EW5
7
8
3
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[Important Check Points for Good Servicing]
In this manual, procedures that must be performed during repairs are marked with the below symbol.
Please be sure to confirm and follow these procedures.
A
B
C
D
1. Product saf ety
Please conform to product regulations (such as safety and radiation regulations), and maintain a safe servicing environment b y
following the safety instructions described in this manual.
1 Use specified parts for repair .
Use genuine parts. Be sure to use important parts for safety .
2 Do not perform modifications without proper instructions.
Please follow the specified safety methods when modification(addition/change of parts) is required due to interferences such as
radio/TV interference and foreign noise .
3 Make sure the soldering of repaired locations is properly performed.
When you solder while repairing, please be sure that there are no cold solder and other debris.
Soldering should be finished with the proper quantity . (Refer to the e xample)
4 Make sure the scre ws are tightly fastened.
Please be sure that all screws are fastened, and that there are no loose screws .
5 Make sure each connectors are correctly inserted.
Please be sure that all connectors are inserted, and that there are no imperfect insertion.
6 Make sure the wiring cables are set to their original state.
Please replace the wiring and cables to the original state after repairs.
In addition, be sure that there are no pinched wires, etc.
7 Make sure scre ws and soldering scraps do not remain inside the product.
Please check that neither solder debris nor screws remain inside the product.
8 There should be no semi-broken wires , scratches, melting, etc. on the coating of the pow er cord.
Damaged power cords may lead to fire accidents, so please be sure that there are no damages .
If you find a damaged power cord, please exchange it with a suitab le one.
9 There should be no spark traces or similar marks on the power plug.
When spark traces or similar marks are found on the power supply plug, please check the connection and advise on secure
connections and suitable usage. Please exchange the po wer cord if necessary .
a Safe en vironment should be secured during servicing.
When you perform repairs, please pay attention to static electricity, furniture, household articles, etc. in order to pre vent injuries.
Please pay attention to your surroundings and repair safely.
2. Adjustments
T o k eep the original performance of the products, optimum adjustments and confirmation of characteristics within specification.
Adjustments should be performed in accordance with the procedures/instructions described in this manual.
3. Lubricants, Glues , and Replacement parts
Use grease and adhesives that are equal to the specified substance.
E
Make sure the proper amount is applied.
4. Cleaning
For parts that require cleaning, such as optical pickups, tape deck heads, lenses and mirrors used in projection monitors, proper
cleaning should be performed to restore their performances.
5. Shipping mode and Shipping scre ws
T o protect products from damages or f ailures during transit, the shipping mode should be set or the shipping screws should be
installed before shipment. Please be sure to follo w this method especially if it is specified in this manual.
F
4
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DEH-P65BT/XN/EW5
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CONTENTS
SAFETY INFORMATION .....................................................................................................................................2
5. ELECTRICAL PARTS LIST.............................................................................................................................50
OTES : Parts marked by " * " are generally unavailable because they are not in our Master Spare Parts List.
The > mark found on some component parts indicates the importance of the safety factor of the part.
A
Therefore, when replacing, be sure to use parts of identical designation.
Screw adjacent to mark on the product are used for disassembly.
For the applying amount of lubricants or glue, follow the instructions in this manual.
(In the case of no amount instructions,apply as you think it appropriate.)
Note: When ordering service parts, be sure to refer to " EXPLODED VIEWS AND PARTS LIST" or
"ELECTRICAL PARTS LIST".
A
A-a
A-a
A-a
A-b
A-b
A-b
Large size
SCH diagram
Guide page
Detailed page
C
B
CN701
CD: ±0dBs
A-a
FM(30%): -23dBs
AM(30%): -23dBs
IP-BUS: -0.8dBs
CD: -3dBs
BT TEL: -1dBs
BT AV:+0.01dBs
AUX: -0.8dBs
FM(30%):-20dBs
AM(30%):-20dBs
C
FM/AM TUNER UNIT
D
RESET
IP-BUS:+2.2dBs
E
F
AF
20
CN10
B
F
EJECT
PANEL UNIT
DETACH
DEH-P65BT/XN/EW5
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FM(30%): -1.9dBs
AM(30%): -1.9dBs
IP-BUS: +10.3dBs
CD: +10.1dBs
BT TEL: +9.1dBs
BT AV:+10.11dBs
AUX: +9.3dBs
TUNER AMP UNIT
A
AUX:+2.2dBs
A-b
A
FAN
B
>
C
D
>
CEK1136
B.UP
10A
GND
B.REM
1K(1/2W)
ACC
TEL
RL-
FL-
RL+
CN76
D
FM(30%): +24.1dBs
AM(30%): +24.1dBs
IP-BUS: +36.3dBs
CD: +36.1dBs
BT TEL: +35.1dBs
2R2
t
R022
BT AV:+36.11dBs
AUX: +35.3dBs
DETACH
BT AV:+3.01dBs
BT TEL:-5dBs
NOTE :
Symbol indicates a resistor.
No differentiation is made between chip resistors and
discrete resistors.
Symbol indicates a capacitor.
No differentiation is made between chip capacitors and
discrete capacitors.
The > mark found on some component parts indicates the importance of the safety factor of the part.
Therefore, when replacing, be sure to use parts of identical designation.
Decimal points for resistor
and capacitor fixed values
are expressed as :
t
2.2
0.022
FL+
RRFRRR+
FR+
RR
-
BACK
FR
UP
-
B.
FL
REM
-
RL
ACC
GND
-
: The power supply is shown with the marked box.
E
RR
+
FR
+
FL
+
RL
+
F
56
DEH-P65BT/XN/EW5
A
7
8
21
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A
>
B
FAN
C
AUX:+2.2dBs
A-a A-b
TUNER AMP UNIT
A
D
E
F
A-b
22
CD: +10.1dBs
AUX: +9.3dBs
BT AV:+10.11dBs
IP-BUS: +10.3dBs
BT TEL: +9.1dBs
FM(30%): -1.9dBs
AM(30%): -1.9dBs
1
2
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+
+
+
+
RL
FL
FR
>
CEK1136
B.UP
ACC
GND
B.REM
10A
1K(1/2W)
FL-
RL-
TEL
FR-
RR-
FR+
RR+
FL+
RL+
RR
RR
CD: +36.1dBs
IP-BUS: +36.3dBs
BT TEL: +35.1dBs
FM(30%): +24.1dBs
AM(30%): +24.1dBs
-
-
-
FL
FR
B.
REM
UP
BACK
AUX: +35.3dBs
BT AV:+36.11dBs
-
RL
ACC
GND
Decimal points for resistor
and capacitor fixed values
are expressed as :
2R2
t
2.2
R022
t
0.022
A
B
CN76
D
Symbol indicates a resistor.
No differentiation is made between chip resistors and
discrete resistors.
Symbol indicates a capacitor.
NOTE :
: The power supply is shown with the marked box.
No differentiation is made between chip capacitors and
discrete capacitors.
The > mark found on some component parts indicates the importance of the safety factor of the part.
Therefore, when replacing, be sure to use parts of identical designation.
BT TEL:-5dBs
C
A-a A-b
D
E
3
DEH-P65BT/XN/EW5
56
BT AV:+3.01dBs
F
4
7
8
A-b
23
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M
A
B
C
A-b
1
2
A-bA-a
CD: -3dBs
AUX: -0.8dBs
BT AV:+0.01dBs
IP-BUS: -0.8dBs
BT TEL: -1dBs
FM(30%): -23dBs
D
E
AM(30%): -23dBs
CD: ±0dBs
F
A-a
24
C
CN701
DEH-P65BT/XN/EW5
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FM(30%):-20dBs
AM(30%):-20dBs
/AM TUNER UNIT
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T
A
3
DETACH
4
A-b
B
RESET
EJECT
C
A-bA-a
D
PANEL UNIT
F
E
CN10
B
IP-BUS:+2.2dBs
F
FM/AM TUNER UNI
A-a
56
DEH-P65BT/XN/EW5
7
8
F
25
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3.3 KEYBOARD UNIT
A
B
F
CN1951
C
D
E
F
B
26
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DEH-P65BT/XN/EW5
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A
KEYBOARD UNIT
B
B
C
D
E
56
DEH-P65BT/XN/EW5
F
B
7
8
27
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3.4 CD MECHANISM MODULE(GUIDE PAGE)
A
C-a
PICKUP UNIT(P10.5)(SERVICE)
B
F
T
F
T
F
F
T
T
F
F
T
T
C
%
F
F
T
T
#
@
SWITCHES:
CD CORE UNIT(S10.5COMP2)
S901:HOME SWITCH..........ON-OFF
S903:DSCSNS SWITCH......ON-OFF
S904:12EJ SWITCH.............ON-OFF
S905:8EJ SWITCH...............ON-OFF
The underlined indicates the switch position.
D
M1 CXC7134
SPINDLE MOTOR
M2 CXC4026
LOADING/CARRIAGE MOTOR
E
3
2
1
S
S
C
C
T
9
F
0
F
F
T
T
$
S
7
C
4
8
5
S
S
C
C
CD DRIVER
F
C
28
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DEH-P65BT/XN/EW5
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C-b
A
CD CORE UNIT(S10.5COMP2)
C
!
SIGNAL LINE
F
FOCUS SERVO LINE
T
TRACKING SERVO LINE
C
CARRIAGE SERVO LINE
S
SPINDLE SERVO LINE
B
C
D
A
CN701
6
E
&^
F
56
DEH-P65BT/XN/EW5
C
7
8
29
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A
B
C
CD CORE UNIT(S10.5COMP2)
SIGNAL LINE
FOCUS SERVO LINE
TRACKING SERVO LINE
CARRIAGE SERVO LINE
F
T
C
SPINDLE SERVO LINE
S
C
C-a C-b
D
E
F
C-b
30
!
1
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A
A
CN701
6
B
&^
C
C-a C-b
D
E
23
DEH-P65BT/XN/EW5
56
F
C-b
7
8
31
Page 32
A
S905:8EJ SWITCHON-OFF
B
C-b
1234
1
FFT
T
#
%
FFT
T
C
C-bC-a
D
FFT
T
@
E
F
C-a
32
FFT
T
SWITCHES:
CD CORE UNIT(S10.5COMP2)
S901:HOME SWITCH..........ON-OFF
S903:DSCSNS SWITCH......ON-OFF
PICKUP UNIT(P10.5)(SERVICE)
S904:12EJ SWITCH.............ON-OFF
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A
23
5
4
8
7
$
C
S
C
C
S
S
C-b
B
C
CD DRIVER
c-bC-a
9
0
F
T
S
S
C
C
F
F
T
T
3
2
1
D
E
SWITCHES:
CD CORE UNIT(S10.5COMP2)
S901:HOME SWITCH..........ON-OFF
S903:DSCSNS SWITCH......ON-OFF
S904:12EJ SWITCH.............ON-OFF
S905:8EJ SWITCH...............ON-OFF
The underlined indicates the switch position.
56
M1 CXC7134
SPINDLE MOTOR
M2 CXC4026
LOADING/CARRIAGE MOTOR
DEH-P65BT/XN/EW5
F
C-a
7
8
33
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- Wavef ormsNote : 1. The encircled numbers denote measuring points in the circuit diagram.
2. Reference voltage REFO1(1.65 V)
A
1DSCSNS
28SNS
312SNS
4LOEJ
12 cm CD Loading operation12 cm CD Loading operation8 cm CD Loading operation
5 V/div
5 V/div
5 V/div
5 V/div
500 ms/div
1DSCSNS
5CLCONT
4LOEJ
6VD
5 V/div
5 V/div
10 V/div
500 ms/div5 V/div
28SNS
312SNS
4LOEJ
5 V/div
5 V/div
5 V/div
5 V/div
500 ms/div1DSCSNS
Ref.:
GND
Mode:
Normal
B
7SIN
8CIN
9TIN
12 cm CD-DA setup operation after loading
Ref.:
C
REFO
Mode:
Normal
1 V/div
500 mV/div
1 V/div
500 mV/div
0FIN
@TE
9TIN
CD-DA Play operationSpindle waveform during play operationSpindle waveform during play operation
D
500 mV/div
500 mV/div
500 mV/div
1 s/div
20 ms/div#FE
Ref.:
GND
Mode:
Normal
RFOK(MONI_2)
!
7SIN
Ref.:
REFO
Mode:
Normal
7SIN
200 mV/div
2 V/div
2 V/div
2 V/div
500 mV/div
500 ms/div0FIN
200 ms/div$MDX
Ref.:
GND
Mode:
Normal
#FE
Source On setup operation12 cm CD-DA Source On setup operation
Ref.:
REFO
Mode:
Normal
7SIN
(Wider)
500 mV/div
500 mV/div
2 V/div
500 mV/div
200 ms/div@TE
µs/div$MDX
5
Ref.:
REFO
Mode:
Normal
500 mV/div
#FE
E
500 mV/div
200 ms/div0FIN
Ref.:
REFO
Mode:
Normal
%RFAGC
500 mV/div
500 mV/div
2 ms/div@TE
Ref.:
REFO
Mode:
Normal
@TE
9TIN
Focus Search waveformTrack Open waveform1 Track Jump waveform
12 cm CD Eject operation8 cm CD Eject operationBlack dot(800 µm) during play
Ref.:
GND
Mode:
Normal
Ref.:
GND
Mode:
Normal
500 ms/div1DSCSNS
9TIN
@TE
0FIN
Ref.:
REFO
Mode:
Normal
1 V/div
1 V/div
1 V/div
1 V/div
500
µs/div%RFAGC
D
E
56
DEH-P65BT/XN/EW5
F
7
8
35
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3.5 BLUETOOTH UNIT
A
B
C
D
E
F
DE
36
ANTENNA UNIT
E
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A
CN552
BLUETOOTH UNIT
D
A
B
C
D
E
F
56
DEH-P65BT/XN/EW5
D
7
8
37
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T
4. PCB CONNECTION DIAGRAM
4.1 TUNER AMP UNIT
A
B
C
NOTE FOR PCB DIA GRAMS
1.The parts mounted on this PCB
include all necessary parts for
several destination.
For further information for
respective destinations, be sure
to check with the schematic dia gram.
2.Viewpoint of PCB diagrams
Connector
P.C.Board
Capacitor
Chip Part
SIDE A
SIDE B
TUNER AMP UNIT
A
140
130
120
110
FAN
100
90
WIRED
REMOTE
IP-BUS
CORD ASSY
15
16
MIC IN
1
2
80
70
D
60
CN76
D
50
40
E
30
20
10
F
A
38
1234
Y
0
1020304050
X
DEH-P65BT/XN/EW5
DETACH
RESE
6070
Page 39
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A
SIDE A
Y
1
2
RCA OUTPUT
B
ANTENNA
C
RESET
708090100
FRONT
56
110120130140150160
DEH-P65BT/XN/EW5
7
F
FM/AM TUNER UNIT
CN1950
170
C
CN701
8
D
E
F
A
39
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A
TUNER AMP UNIT
A
B
C
STEST
PCL
D
E
F
170
110120130140150160
90100
A
40
1234
DEH-P65BT/XN/EW5
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A
SIDE B
140
1
130
B
120
110
100
90
80
70
60
50
40
C
D
E
60708090
DEH-P65BT/XN/EW5
56
30
20
10
Y
1020304050
7
0
X
8
A
F
41
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4.2 KEYBOARD UNIT
KEYBOARD UNIT
A
B
C
B
140150
TA/NEWS
ILLUMINATION65432
SIDE A
90100110120130
D
E
MULTI-CONTROL
LIST
1DISPLAY
607080
BAND
1020304050
F
30
DEH-P65BT/XN/EW5
42
B
40
1234
PHONE
20
SOURCE
10
Y
X
0
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KEYBOARD UNIT
B
150140130120
11010090
F
CN1951
SIDE B
A
B
C
8070605040
302010
D
E
X
0
10
20
30
Y
56
DEH-P65BT/XN/EW5
F
40
B
7
8
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4.3 CD CORE UNIT(S10.5COMP2)
CD CORE UNIT(S10.5COMP2)
A
B
C
C
A
CN701
PICKUP UNIT(P10.5)(SERVICE)
SIDE A
D
E
M2
LOADING
/CARRIAGE
MOTOR
M1
SPINDLE
MOTOR
F
44
C
DEH-P65BT/XN/EW5
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CD CORE UNIT(S10.5COMP2)
C
SIDE B
A
B
C
D
E
F
56
DEH-P65BT/XN/EW5
C
7
8
45
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4.4 BLUETOOTH UNIT
BLUETOOTH UNIT
A
B
C
D
40
30
A
CN552
SIDE A
20
D
10
E
Y
0
F
X
102030
46
D
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BLUETOOTH UNIT
D
SIDE B
A
B
40
C
30
302010
ANT1102
E
20
10
D
E
Y
X
0
F
56
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D
7
8
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4.5 ANTENNA UNIT
ANTENNA UNIT
A
B
C
E
D
CN1
ANTENNA UNIT
E
SIDE BSIDE A
D
E
F
48
E
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4.6 PANEL UNIT
PANEL UNIT
F
EJECT
B
CN10
PANEL UNIT
F
SIDE BSIDE A
A
B
C
A
CN801
D
E
56
DEH-P65BT/XN/EW5
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F
7
8
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N
5. ELECTRICAL PARTS LIST
OTE:
A
Parts whose parts numbers are omitted are subject to being not supplied.The part numbers shown below indicate chip components.
Chip Resistor
RS1/_S___J,RS1/__S___J
Chip Capacitor (except for CQS.....)
CKS....., CCS....., CSZS.....
The > mark found on some component parts indicates the importance of the safety factor of the part.Therefore, when replacing, be sure to use parts of identical designation. Meaning of the figures and others in the parentheses in the parts list.
B
Example) IC 301 is on the point (face A, 91 of x-axis, and 111 of y-axis) of the corresponding
PC board.
IC 301 (A, 91, 111) IC NJM2068V
Circuit Symbol and No.Part No.
Unit Number: CWN2336
Unit Name: Tuner Amp Unit
Unit Number:
Unit Name: Keyboard Unit
C
Unit Number: CWN2339
Unit Name: Bluetooth Unit
Unit Number: CWN2338
Unit Name: Antenna Unit
Unit Number: CWN2689
Unit Name: Panel Unit
Unit Number: CWX3514
D
Unit Name: CD Core
Unit(S10.5COMP2)
A
Unit Number: CWN2336
Unit Name: Tuner Amp Unit
MISCELLANEOUS
E
IC 101(B,34,114) ICHA12241FP
IC 201(A,101,89) ICPML015B
IC 261(A,75,77) ICBA3131FS
IC 351(A,104,134) ICPAL007C
IC 431(B,145,20) ICNJM2391DL1-33
IC 461(B,45,78) ICNJM2391DL1-33
IC 501(A,80,51) ICTC74VHCT08AFTS1
IC 521(A,87,51) ICTC74VHC08FTS1
IC 541(A,94,51) ICS99-50084
IC 561(A,79,106) ICNJM4558MD
F
IC 601(A,116, 47) ICS-80835CNMC-B8U
IC 603(A,135,72) ICPEG331A
IC 701(B,95,34) ICNJM2885DL1-33
IC 911(A,6,116) ICNJM2388F84
D 151(B,9,135) DiodeMALS068X
D 152(B,21,130) DiodeMALS068X
D 153(B,9,134) DiodeMALS068X
D 154(B,17,134) DiodeMALS068X
D 281(A,81,69) DiodeDAN202U
D 331(A,123,127) Diode1SS133
D 381(B,85,134) DiodeHZU8R2(B3)
D 382(A,114,111) DiodeDAN202U
D 431(A,146,20) Diode1SR154-400
D 451(B,22,57) DiodeUDZS5R6(B)
D 452(A,20,57) DiodeDAN202U
D 461(B,56,80) Diode1SR154-400
D 551(B,61,37) DiodeDAN202U
D 561(A,60,81) Diode1SS355
D 601(A,116,44) Diode1SS355
DEH-P65BT/XN/EW5
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Circuit Symbol and No.Part No.
Circuit Symbol and No.Part No.
D 751(A,13,47) DiodeHZS7L(C3)
D 801(B,99,20) DiodeHZM6R2ZMWA
D 802(B,105,18) DiodeMALS068X
D 803(B,120,24) DiodeRSB6R8F2
D 804(B,127,17) DiodeRSB6R8F2
D 807(B,110,22) DiodeRSB6R8F2
D 809(B,91,16) DiodeHZM6R2ZMWA
D 810(B,99,15) DiodeHZM6R2ZMWA
D 821(A,16,28) DiodeHZS9L(B1)
D 891(A,39,112) DiodeUDZS12(B)
D 901(A,25,94) DiodeUDZS5R6(B)
D 902(A,16,97) DiodeMPG06G-6415G50
D 921(B,61,110) DiodeUDZS7R5(B)
D 922(B,58,114) DiodeHZU6R8(B2)
D 941(A,92,111) DiodeMPG06G-6415G50
D 942(A,92,107) DiodeMPG06G-6415G50
D 951(B,53,115) DiodeDAN202U
D 981(A,44,124) DiodeMPG06G-6415G50
D 982(A,70,126) DiodeMPG06G-6415G50
ZNR401(A ,161,108) Surge Protector RCCA-201Q31UA-PI
L 101(A,30,115) InductorLCTC1R0K1608
L 401(B,157,99) InductorLCTAW220J2520
L 402(A,148,90) InductorLAU1R0K
L 403(A,153,47) InductorLAU2R2K
L 404(A,153,70) InductorLAU1R0K
R 156(B,27,111) RS1/16S102J
R 203(A,106,98) RAB4C102J
R 261(A,73,84) RS1/16S473J
R 262(A,73,69) RS1/16S473J
R 263(B,71,80) RS1/16S473J
R 264(B,71,74) RS1/16S473J
R 265(B,73,80) RS1/16S473J
R 266(B,73,74) RS1/16S473J
R 267(B,74,80) RS1/16S473J
R 268(B,74,74) RS1/16S473J
R 269(B,79,80) RS1/16S223J
R 270(B,79,74) RS1/16S223J
R 271(B,79,79) RS1/16S183J
R 272(B,79,76) RS1/16S183J
R 273(B,82,86) RS1/16S473J
R 274(B,82,70) RS1/16S473J
R 275(B,79,86) RS1/16S473J
R 276(B,79,69) RS1/16S473J
R 277(A,77,70) RS1/16S102J
R 278(A,78,70) RS1/16S102J
R 282(A,85,66) RS1/16S472J
R 283(A,85,69) RS1/16S272J
R 301(B,135,119) RS1/16S821J
R 302(A,131,119) RS1/16S821J
R 303(B,140,123) RS1/16S223J
A
B
C
L 551(A,57,69) Chip Ferrite Bead CTF1399
L 601(A,117,54) Ferri-InductorLAU100K
L 701(A,80,40) InductorLAU1R0K
L 801(A,84,13) InductorCTF1379
L 951(B,50,120) InductorLCTAW2R2J2520
X 601(A,120,73) Crystal 20 MHz VSS1 167
S 601(A,73,5) Switch(RESET)CSG1020
S 801(A,25,5) Switch(DETACH) CSN1039
>FU331(A,159,123) Fuse 3 ACEK1286
SP601(A,106,47) BuzzerCPV1062
FM/AM Tuner UnitCWE1951
Fan MotorCXM1288
RESISTORS
R 101(B,43,113) RS1/16S181J
R 102(B,37,121) RS1/16S181J
R 103(B,46,113) RS1/16S102J
R 104(B,40,121) RS1/16S102J
R 105(B,45,113) RS1/16S223J
R 106(B,39,121) RS1/16S223J
R 107(A,29,119) RS1/16S222J
R 108(B,36,131) RS1/16S150J
R 109(B,34,131) RS1/16S470J
R 110(B,41,113) RS1/16S101J
R 111(B,30,132) RS1/16S101J
R 112(B,30,130) RS1/16S101J
R 113(B,47,108) RS1/16S102J
R 114(A,36,119) RS1/16S562J
R 115(A,37,119) RS1/16S332J
R 151(A,13,124) RS1/16S101J
R 152(A,18,124) RS1/16S101J
R 153(A,15,124) RS1/16S223J
R 154(A,17,124) RS1/16S223J
R 155(B,26,115) RS1/16S102J
56
R 304(A,133,119) RS1/16S223J
R 305(A,140,124) RS1/16S0R0J
R 321(B,140,116) RS1/16S821J
R 322(B,137,119) RS1/16S821J
R 323(B,144,116) RS1/16S223J
R 324(B,144,123) RS1/16S223J
R 326(A,143,123) RS1/16S0R0J
R 331(B,118,108) RS1/16S102J
R 332(A,121,130) RS1/16S820J
R 351(B,118,126) RS1/16S153J
R 381(B,89,140) RS1/16S473J
R 382(A,137,99) RS1/16S473J
R 383(B,89,136) RS1/16S104J
R 384(A,114,108) RS1/16S472J
R 385(A,113,120) RS1/16S103J
R 386(A,113,117) RS1/16S103J
R 387(A,113,119) RS1/16S331J
R 388(B,113,114) RS1/16S101J
R 401(B,148,38) RS1/16S0R0J
R 402(B,148,42) RS1/16S0R0J
R 412(A,144,46) RAB4C223J
R 413(B,155,59) RS1/16S681J
R 414(B,157,74) RS1/16S681J
R 415(B,157,76) RS1/16S681J
R 416(B,157,79) RS1/16S681J
R 417(B,157,81) RS1/16S681J
R 418(B,157,85) RS1/16S681J
R 419(B,157,88) RS1/16S681J
R 451(B,22,61) RS1/16S472J
R 452(A,24,68) RD1/4PU0R0J
R 453(A,27,68) RD1/4PU182J
R 454(B,34,67) RS1/16S223J
R 455(A,23,56) RS1/16S0R0J
R 501(A,79,45) RS1/16S681J
R 502(A,80,45) RS1/16S681J
DEH-P65BT/XN/EW5
D
E
F
7
8
51
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1234
Circuit Symbol and No.Part No.
Circuit Symbol and No.Part No.
R 503(A,81,57) RAB4C681J
R 504(B,77,49) RS1/16S0R0J
R 521(A,87,45) RAB4C681J
A
R 522(A,98,59) RS1/16S182J
R 523(A,100,59) RS1/16S182J
R 524(A,100,56) RS1/16S332J
R 525(A,98,56) RS1/16S332J
R 526(A,87,57) RAB4C681J
R 527(B,84,50) RS1/16S0R0J
R 541(A,93,45) RAB4C101J
R 542(B,90,51) RS1/16S0R0J
R 543(A,95,58) RS1/16S101J
R 544(A,96,58) RS1/16S101J
R 553(A,64,69) RS1/16S101J
B
R 554(A,65,69) RS1/16S101J
R 561(A,84,101) RS1/16S473J
R 562(A,84,105) RS1/16S473J
R 563(A,84,100) RS1/16S473J
R 564(A,85,107) RS1/16S473J
R 565(A,62,91) RS1/16S223J
R 566(A,62,93) RS1/16S102J
R 567(A,62,89) RS1/16S102J
R 568(A,65,89) RS1/16S473J
R 569(A,66,106) RS1/16S823J
R 570(A,74,109) RS1/16S103J
C
R 705(B,86,27) RS1/16S221J
R 706(B,86,25) RS1/16S221J
R 707(B,86,23) RS1/16S221J
R 708(B,86,21) RS1/16S221J
R 709(B,86,19) RS1/16S102J
R 751(A,28,51) RD1/4PU102J
R 801(B,123,25) RS1/16S332J
R 802(B,124,10) RS1/16S222J
R 803(B,117,24) RS1/16S222J
R 804(B,124,12) RS1/16S332J
R 805(B,109,19) RS1/16S222J
R 806(B,98,23) RS1/16S222J
R 807(B,93,24) RS1/16S222J
R 808(B,93,22) RS1/16S222J
R 809(B,114,18) RS1/16S102J
R 810(B,105,21) RS1/16S104J
R 811(B,125,25) RS1/16S104J
R 812(B,127,20) RS1/16S104J
R 813(B,115,24) RS1/16S104J
R 814(B,113,24) RS1/16S104J
R 815(B,64,13) RS1/16S104J
R 816(B,31,7) RS1/16S102J
R 817(B,105,19) RS1/16S102J
R 821(A,26,23) RS1/16S222J
R 822(A,22,24) RS1/16S1R0J
R 571(A,72,109) RS1/16S103J
R 572(A,61,106) RS1/16S333J
R 573(A,60,104) RS1/16S332J
R 574(A,70,96) RS1/16S153J
R 575(B,74,100) RS1/16S220J
R 576(B,69,98) RS1/16S102J
R 578(A,58,89) RS1/16S272J
R 601(A,116,42) RS1/16S183J
R 602(B,104,45) RS1/16S102J
R 603(A,141,94) RS1/16S104J
D
R 606(B,113,74) RS1/16S102J
R 607(B,133,56) RS1/16S104J
R 608(B,127,58) RS1/16S104J
R 609(A,128,60) RS1/16S101J
R 610(B,132,63) RS1/16S472J
R 611(A,138,60) RAB4C681J
R 612(B,132,65) RS1/16S472J
R 613(B,142,70) RS1/16S104J
R 614(B,142,64) RAB4C681J
R 615(B,131,72) RS1/16S473J
E
R 616(A,147,72) RAB4C681J
R 617(B,127,74) RS1/16S681J
R 618(B,125,79) RS1/16S473J
R 619(B,117,79) RS1/16S104J
R 622(A,129,91) RS1/16S104J
R 623(A,130,101) RS1/16S104J
R 624(A,130,99) RS1/16S104J
R 625(A,129,84) RS1/16S0R0J
R 626(B,134,81) RS1/16S103J
R 627(B,133,78) RS1/16S473J
R 628(B,133,81) RS1/16S223J
F
R 701(B,70,30) RAB4C682J
R 702(B,66,24) RS1/16S104J
R 703(B,66,26) RS1/16S473J
R 704(B,86,29) RS1/16S221J
52
1234
R 823(A,13,28) RD1/4PU681J
R 831(B,40,13) RS1/16S103J
R 832(B,37,17) RS1/16S473J
R 833(A,31,15) RD1/4PU391J
R 891(A,36,108) RS1/16S181J
R 892(A,36,110) RS1/16S181J
R 893(A,36,112) RS1/16S181J
R 894(A,34,109) RS1/16S1R0J
R 901(A,31,94) RS1/16S333J
R 902(A,34,94) RS1/16S821J
R 903(A,34,95) RS1/16S821J
R 911(A,12,105) RS1/16S473J
R 921(B,65,110) RS1/16S103J
R 922(B,59,112) RS1/16S103J
R 923(B,65,112) RS1/16S473J
R 924(B,61,115) RS1/16S223J
R 925(B,58,116) RS1/16S472J
R 951(B,53,107) RS1/16S102J
R 952(B,56,109) RS1/16S472J
R 953(B,53,112) RS1/16S472J
R 954(B,53,118) RS1/16S153J
CAPACITORS
C 101(B,38,131) CCSRCH101J50
C 102(B,32,131) CCSRCH101J50
C 103(B,40,127) CKSRYB104K16
C 104(B,25,131) CKSRYB102K50
C 105(B,27,131) CKSRYB102K50
C 106(A,31,115) CKSRYB104K16
C 151(B,17,125) CKSRYB473K50
C 201(B,90,80) CKSRYB105K6R3
C 202(B,90,96) CKSRYB105K6R3
C 203(A,92,80) CKSRYB105K6R3
DEH-P65BT/XN/EW5
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Circuit Symbol and No.Part No.
C 204(A,92,97) CKSRYB105K6R3
C 205(A,93,77) CKSRYB224K16
C 206(A,92,98) CKSRYB224K16
C 207(B,92,93) CKSRYB105K6R3
C 208(A,95,99) CKSRYB105K6R3
Circuit Symbol and No.Part No.
C 433(B,153,22) CKSRYB103K50
C 435(A,160,26) CEJQ470M10
C 451(A,17,65) CEAL101M10
C 452(B,22,59) CKSRYB103K50
C 453(A,29,76) CEHAS101M10
A
C 209(B,92,91) CKSRYB105K6R3
C 210(A,97,99) CKSRYB105K6R3
C 217(B,103,85) CKSRYB153K50
C 218(B,105,93) CKSRYB153K50
C 221(A,85,87) CEAL470M10
C 222(B,95,85) CKSRYB105K10
C 223(B,105,80) CKSRYB105K10
C 224(A,98,77) CEAL100M16
C 225(A,105,77) CEAL100M16
C 226(A,95,73) CEAL4R7M16
C 261(A,68,84) CKSRYB105K6R3
C 262(A,67,70) CKSRYB105K6R3
C 263(A,71,84) CKSRYB105K6R3
C 264(A,71,69) CKSRYB105K6R3
C 265(B,76,80) CCSRCH220J50
C 266(B,76,74) CCSRCH220J50
C 267(B,79,82) CCSRCH470J50
C 268(B,79,72) CCSRCH470J50
C 269(A,69,78) CKSRYB104K16
C 271(B,79,84) CCSRCH220J50
C 272(B,79,70) CCSRCH220J50
C 273(B,82,82) CKSRYB105K6R3
C 274(B,82,78) CKSRYB105K6R3
C 275(A,77,91) CEAL100M16
C 276(B,77,94) CKSRYB103K50
C 454(A,18,75) 470 µF/16 VCCH1339
C 463(A,37,73) CEAL220M16
C 464(B,53,76) CKSRYB103K50
C 465(B,53,81) CKSRYB103K50
C 466(B,51,84) CKSYB475K16
C 501(B,81,49) CKSRYB104K16
C 521(B,86,48) CKSRYB104K16
C 541(B,93,48) CKSRYB104K16
C 552(B,52,38) CKSRYB102K50
C 554(B,59,56) CCSRCH101J50
C 561(A,86,105) CCSRCH470J50
C 562(A,65,91) CKSRYB104K16
C 563(A,65,93) CKSRYB104K16
C 564(A,77,102) CKSRYB104K16
C 565(A,65,106) CKSRYB331K50
C 566(A,63,106) CKSRYB682K50
C 567(A,70,109) CKSQYB225K10
C 568(A,68,96) CKSRYB104K16
C 569(A,69,101) CEAL330M10
C 602(A,116,40) CKSRYB105K10
C 604(B,133,54) CCSRCH470J50
C 605(B,140,72) CKSRYB104K16
C 606(B,125,76) CCSRCH100D50
C 607(A,120,64) CKSRYB104K16
C 608(B,124,72) CCSRCH100D50
B
C
C 277(A,70,89) CEAL220M10
C 278(A,84,77) CEAL101M10
C 301(A,138,112) CEAL100M16
C 302(A,132,112) CEAL100M16
C 321(A,138,106) CEAL100M16
C 322(A,132,106) CEAL100M16
C 331(A,123,109) CEAL220M35
C 351(A,103,110) CKSRYB474K16
C 352(A,101,110) CKSRYB474K16
C 353(A,105,110) CKSRYB474K16
C 354(A,108,110) CKSRYB474K16
C 355(A,103,114) CKSQYB474K16
C 356(A,101,114) CKSQYB474K16
C 357(A,105,114) CKSQYB474K16
C 358(A,108,114) CKSQYB474K16
C 359(B,117,120) CKSQYB225K10
C 360(B,119,133) CKSQYB225K10
C 362(A,117,123) CEAL100M16
C 363(B,111,136) CKSRYB104K16
C 364(A,81,119) 3 300 µF/16 VCCH1486
C 382(A,120,116) CEHAR330M10
C 412(B,164,54) CKSRYB103K50
C 413(B,164,60) CKSRYB103K50
C 414(A,152,54) CEJQ470M10
C 415(A,152,62) CEJQ470M10
C 609(A,123,55) CEAL4R7M16
C 610(A,114,56) CKSRYB103K50
C 612(B,128,71) CKSRYB474K10
C 613(B,132,76) CKSRYB474K10
C 702(A,78,37) CCSRCH101J50
C 703(A,91,40) CEJQ220M16
C 704(B,87,35) CKSRYB103K50
C 705(B,87,31) CKSRYB474K10
C 751(A,19,45) CEHAS101M10
C 752(A,27,44) CEAL101M10
C 753(A,13,41) CKSRYB102K50
C 754(B,9,50) CKSRYB473K50
C 801(B,127,25) CCSRCH220J50
C 805(B,105,23) CKSRYB104K16
C 806(A,120,18) CKSRYB104K16
C 807(A,120,16) CKSRYB104K16
C 808(B,128,22) CCSRCH220J50
C 809(B,115,28) CCSRCH220J50
C 821(A,25,19) CEJQ1R0M50
C 823(A,19,22) CKSRYB104K16
C 891(A,39,113) CKSRYB224K16
C 892(A,38,105) CKSRYB103K50
C 893(A,43,106) CEAL100M25
C 901(A,46,86) CEAL101M10
C 902(B,43,85) CKSRYB104K16
D
E
C 416(B,164,91) CKSRYB103K50
C 417(A,147,98) CEAL101M10
C 418(A,153,93) CKSRYB104K16
C 431(A,147,27) CEJQ220M16
C 432(B,153,18) CKSRYB103K50
56
C 903(A,22,94) CKSRYB103K50
C 904(A,16,87) 2 200 µF/16 VCCH1405
C 911(A,18,103) CEHAS101M10
C 912(A,12,108) CKSRYB103K50
C 913(A,18,111) CEJQ101M16
DEH-P65BT/XN/EW5
F
7
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Circuit Symbol and No.Part No.
C 921(B,58,118) CKSRYB104K25
C 941(A,91,114) CKSRYB473K50
C 951(B,47,118) CKSRYB104K25
A
B
Unit Number:
Unit Name: Keyboard Unit
MISCELLANEOUS
IC 2(B,124,9) DACBU2507FV
IC 3(A,57,38) Remote ICGP1UX51RK
IC 4(B,93,22) ICPD6538A
IC 5(B,109,15) ICS-L2980A50MC-C7J
Q 1(B,46,29) TransistorUMX1N
D 2(B,102,8) DiodeMALS068X
D 3(A,21,30) Chip LEDNSCM315C-6418
D 5(A,123,6) Chip LEDNSCM315C-6418
D 7(A,54,5) Chip LEDNSCM315C-6418
D 90(A,13,22) LEDCL-197HB1-D(CDE)
D 91(A,63,21) Chip LEDNSSM038A-6430
D
D 92(A,154,21) Chip LEDNSSM038A-6430
D 93(B,42,20) DiodeMALS068X
D 94(B,53,24) DiodeMALS068X
D 95(B,32,29) DiodeMALS068X
D 96(B,37,20) DiodeMALS068X
D 97(B,27,22) DiodeMALS068X
L 1(B,109,8) Chip CoilLCKAW100J2520
X 1(B,99,8) Ceramic Resonator 5.00 MHz CSS1731
S 2(A,66,7) Push SwitchCSG1155
S 3(A,88,7) Push SwitchCSG1155
E
S 4(A,94,7) Push SwitchCSG1155
S 5(A,115,7) Push SwitchCSG1155
S 6(A,77,7) Push SwitchCSG1155
S 7(A,105,7) Push SwitchCSG1155
S 10(A,23,38) Push SwitchCSG1155
S 11(A,6,17) Push SwitchCSG1155
S 12(A,7,4) Push SwitchCSG1155
S 13(A,23,8) Push SwitchCSG1155
S 15(A,131,7) Push SwitchCSG1155
S 16(A,137,7) Push SwitchCSG1155
S 17(A,152,7) Push SwitchCSG1155
F
S 18( A,40,23) SwitchCSX1116
LCD1(A,67,33) LCDCAW1948
RESISTORS
54
1234
Circuit Symbol and No.Part No.
R 3(B,104,13) RS1/16S102J
R 4(B,104,11) RS1/16S102J
R 5(B,151,23) RS1/16S223J
R 6(B,122,14) RS1/16S272J
R 7(B,121,14) RS1/16S272J
R 8(B,120,13) RS1/16S272J
R 10(B,65,40) RS1/16S221J
R 11(B,69,40) RS1/16S2R2J
R 15(B,42,27) RS1/16S820J
R 16(B,43,24) RS1/16S121J
R 17(B,46,31) RS1/16S101J
R 21(B,47,31) RS1/16S101J
R 22(B,45,27) RS1/16S680J
R 23(B,45,24) RS1/16S820J
R 24(B,48,36) RS1/16S104J
R 25(B,27,30) RS1/16S101J
R 26(B,48,39) RS1/16S222J
R 27(B,20,37) RS1/16S121J
R 28(B,19,30) RS1/16S121J
R 29(B,50,31) RS1/16S102J
R 30(B,20,35) RS1/16S121J
R 31(B,20,30) RS1/16S121J
R 32(B,40,35) RS1/16S101J
R 33(B,57,24) RS1/16S820J
R 34(B,56,21) RS1/16S121J
R 35(B,48,31) RS1/16S101J
R 36(B,34,37) RS1/16S104J
R 37(B,34,38) RS1/16S222J
R 38(B,27,31) RS1/16S101J
R 39(B,55,24) RS1/16S680J
R 40(B,55,21) RS1/16S820J
R 41(B,119,7) RS1/16S102J
R 42(B,21,28) RS1/16S820J
R 43(B,18,28) RS1/16S121J
R 44(B,26,36) RS1/16S101J
R 45(B,21,26) RS1/16S680J
R 46(B,18,26) RS1/16S820J
R 47(B,26,34) RS1/16S101J
R 48(B,18,25) RS1/16S121J
R 49(B,18,23) RS1/16S121J
R 50(B,30,36) RS1/16S104J
R 51(B,30,38) RS1/16S222J
R 52(B,26,33) RS1/16S101J
R 53(B,129,7) RS1/16S102J
R 54(B,140,12) RS1/16S101J
R 55(B,139,8) RS1/16S104J
R 56(B,139,6) RS1/16S222J
R 57(B,137,14) RS1/16S101J
R 58(B,145,8) RS1/16S820J
R 59(B,145,6) RS1/16S121J
R 60(B,130,9) RS1/16S102J
R 61(B,144,8) RS1/16S680J
R 62(B,144,6) RS1/16S820J
R 63(B,149,18) RS1/16S820J
R 64(B,151,18) RS1/16S121J
R 65(B,149,16) RS1/16S680J
R 66(B,151,16) RS1/16S820J
R 67(B,140,13) RS1/16S101J
R 68(B,134,8) RS1/16S104J
R 69(B,133,5) RS1/16S222J
DEH-P65BT/XN/EW5
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Circuit Symbol and No.Part No.
R 70(B,134,14) RS1/16S101J
R 71(B,130,11) RS1/16S102J
R 72(B,152,28) RS1/16S121J
R 73(B,152,26) RS1/16S121J
R 74(B,150,28) RS1/16S121J
R 75(B,150,26) RS1/16S121J
R 76(B,154,34) RS1/16S101J
R 77(B,139,36) RS1/16S104J
R 78(B,153,34) RS1/16S101J
R 79(B,140,36) RS1/16S222J
R 80(B,130,12) RS1/16S102J
R 81(B,34,29) RS1/16S222J
R 82(B,55,8) RS1/16S102J
R 83(B,35,27) RS1/16S102J
R 84(B,151,22) RS1/16S471J
R 85(B,151,20) RS1/16S471J
R 86(B,47,11) RS1/16S102J
R 87(B,47,8) RS1/16S102J
R 88(B,47,13) RS1/16S103J
R 89(B,48,16) RS1/16S102J
R 90(B,44,19) RS1/16S102J
R 93(A,19,21) RS1/16S331J
R 99(B,33,29) RS1/16S102J
R 101(B,97,9) RS1/16S222J
R 102(B,106,15) RS1/16S0R0J
R 103(B,105,8) RS1/16S102J
CAPACITORS
C 1(B,117,7) CCSRCH100D50
C 4(B,61,40) CKS QYB106K 6R3
C 5(B,108,22) CKS RYB103K50
C 7(B,42,38) CKS QYB225K 10
C 8(A,18,29) CKSRYF104Z50
C 9(A,20,27) CKSRYF104Z50
C 16(B,32,37) CKSQYB225K10
C 17(B,106,16) CKSRYB105K6R3
C 18(B,124,5) CKSRYB105K6R3
C 19(A,59,28) CKSRYF104Z50
C 20(A,56,31) CKSRYF104Z50
C 21(B,26,38) CKSQYB225K10
C 22(A,124,3) CKSRYF104Z50
C 23(A,117,4) CKSRYF104Z50
C 24(B,141,7) CKSQYB225K10
C 25(A,144,7) CKSRYF104Z50
C 26(B,134,5) CKSQYB225K10
C 27(A,143,7) CKSRYF104Z50
C 28(B,142,37) CKSQYB225K10
C 29(A,50,5) CKSRYF104Z50
C 30(A,47,4) CKSRYF104Z50
C 82(A,18,23) CKSRYF104Z50
C 83(B,127,13) CKSRYB103K50
C 89(B,106,19) CKSRYB103K50
C 90(B,109,19) CKSRYB474K16
C 91(B,109,12) CKSRYB105K6R3
C 92(B,47,10) CKSRYB103K50
C 93(B,47,7) CKSRYB103K50
D
Circuit Symbol and No.Part No.
Unit Number: CWN2339
Unit Name: Bluetooth Unit
MISCELLANEOUS
IC 21(A,29,43) ICTC74VHC02FTS1
IC 22(A,23,43) ICTC7PAU04FU
IC 23(B,22,40) ICTC7PAU04FU
IC 36(A,11,14) ICAK2301A
IC 51(A,16,27) ICAN6123MS
IC 56(B,10,13) ICPCM1742KE
IC 66(B,12,21) ICNJM4558V
Q 1(A,30,13) Chip TransistorDTC124EUA
Q 2(A,34,29) Chip TransistorDTC124EUA
Q 21(B,27,40) TransistorUMD2N
L 21(A,26,39) InductorCTF1379
L 22(A,23,40) InductorCTF1379
L 23(B,23,44) InductorCTF1379
L 36(A,5,11) InductorLCYC2R2K1608
L 51(A,11,32) InductorCTF1379
L 56(B,17,7) InductorCTF1379
L 57(B,12,9) InductorCTF1379
X 21(A,19,41) Oscillator 11.289 6 MHz CSS1670
X 22(B,18,42) Oscillator 12.288 MHz CSS1698
Y 1(B,27,21) Bluetooth Module CWX3466
RESISTORS
R 1(A,22,12) RS1/16S334J
R 2(A,32,32) RS1/16S103J
R 3(A,35,26) RS1/16S473J
R 4(A,28,29) RS1/16S103J
R 5(A,20,24) RS1/16S103J
R 7(A,35,23) RS1/16S103J
R 8(A,32,23) RS1/16S101J
R 9(A,32,20) RS1/16S103J
R 21(A,33,39) RS1/16S101J
R 22(B,21,38) RS1/16S473J
R 23(A,23,37) RS1/16S473J
R 24(B,24,40) RS1/16S101J
R 25(A,24,40) RS1/16S101J
R 26(A,21,41) RS1/16S332J
R 27(A,21,43) RS1/16S105J
R 28(B,20,43) RS1/16S332J
R 29(B,20,40) RS1/16S105J
R 36(A,15,5) RS1/16S103J
R 37(A,14,7) RS1/16S104J
R 41(A,8,22) RS1/16S103J
R 43(A,10,21) RS1/16S393J
R 44(A,8,20) RS1/16S393J
R 45(A,14,21) RAB4C101J
R 46(A,4,18) RS1/16S103J
R 47(A,16,15) RS1/16S203J
R 48(A,18,18) RS1/16S223J
R 49(A,7,8) RS1/16S203J
R 50(A,14,8) RS1/16S473J
A
B
C
D
E
F
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8
55
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Circuit Symbol and No.Part No.
R 51(A,20,28) RS1/16S105J
R 52(A,7,5) RS1/16S223J
Circuit Symbol and No.Part No.
C 56(B,8,7) CKSYB106K6R3
C 57(B,15,12) CKSRYB102K50
R 57(B,15,15) RAB4C101J
A
R 58(A,30,36) RS1/16S821J
R 66(B,18,21) RS1/16S103J
R 67(B,16,24) RS1/16S103J
R 68(B,12,19) RS1/16S473J
R 69(B,11,24) RS1/16S103J
R 70(B,7,24) RS1/16S103J
R 71(B,9,19) RS1/16S473J
R 72(B,3,17) RS1/16S103J
R 73(B,5,19) RS1/16S103J
R 76(A,4,30) RS1/16S101J
R 77(B,5,31) RS1/16S101J
B
R 78(A,6,32) RS1/16S101J
R 79(B,11,32) RS1/16S0R0J
R 80(A,3,33) RS1/16S101J
R 81(B,10,29) RS1/16S101J
R 82(B,16,29) RS1/16S101J
R 83(B,9,32) RS1/16S101J
R 84(B,16,31) RS1/16S0R0J
R 85(B,9,39) RS1/16S101J
R 86(B,6,39) RAB4C101J
R 87(B,12,39) RAB4C101J
C
CAPACITORS
C 58(B,16,11) CKSYB106K6R3
C 59(B,14,9) CKSRYB102K50
C 60(B,10,7) CKSYB106K6R3
C 61(B,14,6) CKSRYB102K50
C 66(B,16,18) CKSYB475K16
C 67(B,9,17) CKSYB475K16
C 68(B,16,21) CCSRCH221J50
C 69(B,16,26) CCSRCH391J50
C 70(B,9,26) CKSYB106K6R3
C 71(B,6,25) CKSRYB105K10
C 72(B,4,19) CCSRCH391J50
C 73(B,7,20) CCSRCH221J50
C 76(A,13,45) CKSRYB102K50
E
Unit Number: CWN2338
Unit Name: Antenna Unit
ANT1101BT AntennaCWX3132
F
Unit Number: CWN2689
Unit Name: Panel Unit
C 1(A,28,12) CKSRYB104K16
C 4(A,26,21) CSZS100M16
C 5(A,22,16) CKSRYB104K16
C 7(A,25,13) CSZS1R0M16
C 8(A,23,21) CKSRYB104K16
C 9(A,23,19) CKSRYB104K16
C 10(A,22,15) CCSRCH101J50
C 21(A,28,40) CKSRYB104K16
C 22(A,21,38) CKSRYB105K10
D
C 23(A,19,37) CCSRCH120J50
C 24(A,19,45) CCSRCH120J50
C 25(B,23,43) CKSRYB105K10
C 26(B,15,42) CCSRCH120J50
C 27(B,17,38) CCSRCH120J50
C 28(A,27,36) CKSRYB102K50
C 36(A,3,15) CKSYB106K6R3
C 37(A,5,15) CKSRYB104K16
C 38(A,10,22) CKSRYB105K10
C 41(A,10,19) CCSRCH101J50
C 42(A,7,20) CKSRYB105K10
E
C 43(A,4,20) CKSRYB105K10
C 44(A,11,8) CKSRYB334K10
C 45(A,12,5) CKSRYB105K10
C 46(A,16,17) CCSRCH101J50
C 47(A,7,7) CCSRCH101J50
C 48(A,9,5) CKSRYB105K10
C 49(A,9,8) CKSRYB105K10
C 50(A,17,20) CKSRYB105K10
C 51(A,19,24) CKSRYB334K10
C 52(A,16,24) CCSRCH331J50
F
C 53(A,19,29) CKSYB106K6R3
C 54(A,15,30) CKSRYB105K10
C 55(A,13,29) CKSRYB104K16
MISCELLANEOUS
D 1970(A,5,19) LEDCL220PGC
D 1971(B,65,6) DiodeUDZS10(B)
D 1972(B,67,6) DiodeUDZS10(B)
D 1973(B,48,14) DiodeMALS068X
D 1974(B,56,5) DiodeMALS068X
D 1975(B,52,10) DiodeMALS068X
D 1976(B,47,16) DiodeMALS068X
D 1977(B,16,15) DiodeMALS068X
L 1971(B,42,14) InductorCTF1379
L 1972(B,50,5) InductorCTF1379
S 1970(A,78,40) Push Switch(EJECT) CSG1174
RESISTORS
R 1970(B,62,9) RS1/16S101J
R 1971(B,65,9) RS1/16S101J
CAPACITORS
C 1970(B,36,17) CKSRYB104K16
C 1971(B,59,5) CKSRYB104K16
C
Unit Number: CWX3514
Unit Name: CD Core
Unit(S10.5COMP2)
MISCELLANEOUS
IC 201(A,34,46) ICPE5547A
IC 301(A,27,14) ICBA5839FP
Q 101(B,56,72) Transistor2SA1577
56
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Circuit Symbol and No.Part No.
Q 102(B,47,57) Transistor2SB1689
X 201(A,23,35) Ceramic Resonator 16.934 MHz CSS1603
S 901(A,53,37) Switch(HOME)CSN1067
S 903(B,19,58) Switch(DSCSNS) CSN1067
S 904(B,38,67) Switch(12EJ)CSN1068
S 905(B,24,68) Switch(8EJ)CSN1068
RESISTORS
R 101(B,60,73) RS1/10SR2R4J
R 102(B,59,71) RS1/10SR2R4J
R 103(B,60,71) RS1/10SR2R7J
R 104(B,52,69) RS1/16SS222J
R 105(B,41,57) RS1/16SS102J
R 107(B,41,59) RS1/16SS105J
R 202(B,32,62) RS1/16SS473J
R 203(B,42,45) RS1/16S473J
R 204(A,25,61) RS1/16SS221J
R 206(B,26,53) RS1/16SS104J
R 210(B,13,32) RS1/16SS102J
R 214(B,36,34) RS1/16SS472J
R 216(B,47,49) RS1/16SS472J
R 221(B,36,32) RS1/16SS103J
R 222(B,35,32) RS1/16SS103J
R 225(A,49,49) RS1/16SS103J
R 226(A,49,50) RS1/16SS393J
R 227(B,45,51) RS1/16SS562J
R 228(B,42,53) RS1/16SS122J
R 229(B,44,53) RS1/16SS472J
R 230(B,21,28) RS1/16SS0R0J
R 232(B,43,51) RS1/16SS122J
R 233(B,29,52) RS1/16SS103J
R 234(B,30,61) RS1/16SS473J
R 235(A,25,63) RS1/16SS473J
R 239(B,26,48) RS1/16SS473J
R 240(B,10,31) RS1/16SS473J
R 241(B,9,32) RS1/16SS103J
Circuit Symbol and No.Part No.
C 212(B,29,32) CKSRYB104K16
C 213(A,44,37) CKSSYB104K10
C 214(A,28,33) CKSSYB104K10
C 216(A,50,51) CKSSYB332K50
C 217(A,46,51) CKSSYB104K10
C 218(A,49,51) CKSSYB473K10
C 219(A,45,53) CKSSYB104K10
C 220(A,46,53) CKSSYB182K50
C 221(A,44,53) CKSSYB104K10
C 222(B,43,53) CCSSCH560J50
C 223(B,45,53) CCSSCH4R0C50
C 224(A,43,55) CKSSYB104K10
C 226(A,40,58) CCSSCH680J50
C 227(A,40,60) CCSSCH470J50
C 228(A,39,62) CKSSYB103K16
C 229(B,49,59) CKSSYB104K10
C 236(A,42,61) CKSSYB104K10
C 239(B,44,51) CCSSCH220J50
C 240(A,35,61) CKSSYB104K10
C 250(B,36,30) CKSSYB102K50
C 251(B,33,29) CKSSYB102K50
C 303(A,35,19) CKSSYB472K25
C 304(A,34,21) CKSSYB223K16
C 307(B,25,9) CKSRYB104K16
C 308(B,10,27) CKSRYB105K10
C 703(B,11,37) CCSSCH101J50
C 704(B,8,36) CKSSYB102K50
C 711(A,25,26) CKSSYB104K10
Miscellaneous Parts List
Pickup Unit(P10.5)(Service) CXX1942
M 1Motor Unit(SPINDLE)CXC7134
M 2Motor Unit(LOADING/CARRIAGE) CXC4026
A
B
C
D
R 244(A,20,52) RS1/16SS473J
R 255(A,27,63) RAB4CQ104J
R 307(A,34,19) RS1/16SS183J
R 308(A,38,20) RS1/16SS183J
R 309(A,35,21) RS1/16SS183J
R 310(A,38,21) RS1/16SS183J
R 601(B,28,38) RS1/16SS0R0J
R 602(B,27,41) RS1/16SS0R0J
R 606(B,23,41) RS1/16SS0R0J
R 701(B,16,35) RS1/16SS221J
R 702(A,23,55) RS1/16SS221J
CAPACITORS
C 106(B,56,69) CKSQYB475K6R3
C 202(A,27,57) CKSSYB104K10
C 204(A,24,63) CKSSYB103K16
C 205(B,23,43) CKSQYB475K6R3
C 206(A,22,39) CKSSYB104K10
C 207(A,24,37) CKSRYB104K16
C 209(B,33,40) CEVW220M6R3
C 210(B,29,42) CKSSYB104K10
C 211(A,27,34) CKSSYB104K10
56
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F
7
8
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6. ADJUSTMENT
6.1 CD ADJUSTMENT
A
1) Cautions on adjustments
In this product the single voltage (3.3 V) is used for the
regulator. The reference voltage is the REFO1 (1.65 V)
instead of the GND.
If you should mistakenly short the REFO1 with the GND
during adjustment, accurate voltage will not be obtained,
and the servo’s misoperation will apply e xcessiv e shoc k
to the pickup. To avoid such problems:
a. Do not mix up the REFO1 with the GND when
connecting the (-) probe of measuring instruments.
B
Especially on an oscilloscope, avoid connecting the (-)
probe for CH1 to the GND.
b. In man y cases, measuring instruments hav e the same
potential as that for the (-) probe. Be sure to set the
measuring instruments to the floating state.
c. If y ou hav e mistakenly connected the REFO1 to the GND ,
turn off the regulator or the power immediately.
Before mounting and removing filters or leads for
adjustment, be sure to turn off the regulator.
For stable circuit operation, keep the mechanism
C
operating for about one minute or more after the
regulator is turned on.
In the test mode, any software protections will not
work. Avoid applying any mechanical or electrical
shock to the mechanism during adjustment.
2) T est mode
This mode is used to adjust the CD mechanism module.
To enter the test mode.
While pressing the [4] and [6] keys at the same time,
reset.
To exit from the test mode.
Turn off the ACC and back up.
Notes:
a. During ejection, do not press any other k eys than the
EJECT key until the loaded disc is ejected.
b. If y ou ha v e pressed the [→] ke y or [←] ke y during focus
search, turn off the power immediately to protect the
actuator from damage caused by the lens stuck.
c. For the TR jump modes except 100TR, the tr ack jump
operation will continue even if the key is released.
d. F or the CRG mov e and 100TR jump modes , the tracking
loop will be closed at the same time when the key is
released.
e. When the power is turned off and on, the jump mode
is reset to the single TR (91), the RF amp gain is set to 0 dB,
and the auto-adjustment values are reset to the default
settings.
The RFI and RFO signals with a wide frequency range
are easy to oscillate. When obser ving the signals,
insert a resistor of 1k ohms in series.
The load and eject operation is not guarantied with the
D
mechanism upside down. If the mechanism is b loc k ed
due to mistaken eject operation, reset the product or
turn off and on the ACC to restore it.
E
F
58
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DEH-P65BT/XN/EW5
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- Flow Chart
[Key]
Contents
Display
[BAND]
Power Off
TRK MIN SEC
[BAND]
Power Off
TRK MIN SEC
[BAND]
Power Off
TRK MIN SEC
[4] + [6] + Reset or
[4] + [6] + BU + ACC
Test Mode In
[CD] or [SOURCE]
Source On
TRK MIN SEC
[BAND]
Power On
(T.Offset is adjusted)
TRK MIN SEC
00 00 00
[3]
Focus Close
S curve check
TRK MIN SEC
91 91 91
[1]
T.Close & A GC
Applicable servomechanism
TRK MIN SEC
?tr ?min ?sec
[1]
F .Bias displa y s witching
*7
F ,T,RF A GC
TRK MIN SEC
[3]
Power On
(T.Offset is not adjusted)
TRK MIN SEC
99 99 99
[6]
Focus Mode switching
TRK MIN SEC
[6][3]
Applicable servomechanism
TRK MIN SEC
?tr ?min ?sec
[3][6]
TRK MIN SEC
?tr ?min ?sec
0X 0X 0X
F,T AGC / F.Bias
RF AGC
*2
[2]
TRK MIN SEC
GG GG GG
[1]
RF AGC coefficient display
TRK MIN SEC
TRK MIN SEC
?tr ?min ?sec
RF AMP
Gain switching
Trac king Servo
Close
00 00 00
or 99 99 99
RF AGC /
?? ?? ??
CRG/TR jump
value switching
*1
*5
[4]
SPINDLE
Speed switching
TRK MIN SEC
SP SP SP
[>]
CRG +
00 00 00
or 99 99 99
[>]
CRG +
8X 8X 8X
or 9X 9X 9X
[>]
CRG/TR Jump +
TRK MIN SEC
?tr ?min ?sec
*9
[<]
CRG -
00 00 00
or 99 99 99
[<]
CRG -T.Close
8X 8X 8X
or 9X 9X 9X
[<]
*4*4
CRG/TR Jump -
TRK MIN SEC
?tr ?min ?sec?? ?? ??
*8
*6
[2]
Self-adjusting
switching
*3*8
TRK MIN SEC
?? ?? ??
[2]
T.Balance adjustment /
T.BAL coefficient displa y
TRK MIN SEC
?? ?? ??
[2]
Trac king Open
8X 8X 8X
or 9X 9X 9X
[5]
Gop Mode
Gop Mode switching
TRK MIN SEC
OL OL OL
*10
A
B
C
[BAND]
Power Off
TRK MIN SEC
*1) TYP → + 6 dB → + 12 dB
TRK
*2) Focus Close
TRK00MIN00SEC
TRK99MIN99SEC
(
MIN
SEC
TRK06MIN06SEC
→ S Curve check setting → F EQ measurement setting
00
TRK
MIN01SEC
01
01
06
TRK12MIN12SEC
TRK02MIN02SEC
99)
12
02
*3) F.Offset Display → RF.Offset → T.Offset Display → Switch to the
order of the original display
*4) 1TR/4TR/10TR/32TR/100TR
*5) Single
→ 4TR → 10TR → 32TR → 100TR → CRG Move
9x(8x):91(81) 92(82) 93(83) 94(84) 95(85) 96(86)
*6) Only at the time of CRG move, 100TR jump
*7) TRK/MIN/SEC
→ F.AGC → T.AGC Gain → F.Bias → RF AGC
*8) CRG motor voltage = 2 [V]
*9) TYP (1X)
TRK
MIN
→ 2X → 1X
SEC
TRK
MIN22SEC
22
22
TRK11MIN11SEC
11
[2]
Trac king Open
8X 8X 8X
or 9X 9X 9X
Operation
[Key]
Test Mode
[BAND] Power On/Off
[>]
CRG + / TR Jump +
(Direction of the external surface)
[<]
CRG - / TR Jump (Direction of the internal surface)
[1]T. CLS & AGC & Applicable servomechanism /
AGC,AGC display setting
[2]RF Gain switching / Offset adjustment display /
T.Balance adjustment / T. Open
[3]F. Close,S Curve / Rough Servo and RF AGC /
F,T,RF AGC
[4]
SPDL 1X/2X switching
As for the double speed(2x), audio output cannot be
supported.
[5]
Error Rate measurement
ON : ERR 30 Counts Start
BER display data[%]
[6]F. Mode switching / Tracking Close / CRG TR
Jump Switching
*10) OFF(TYP)
TRK
MIN
→ FORCUS → TRACKING
SEC
TRK
MIN70SEC
70
70
TRK71MIN71SEC
D
E
71
As for the double speed (2x), audio output cannot be supported
*) After the [EJECT] key is pressed keys other than the [EJECT] key should not be pressed, until disc ejection is complete.
When the key [2] or [3] is pressed during the Focus Search, the power supply should be immediately turned off (otherwise the lens
sticks to Wall, causing the actuator to be damaged).
In the case of TR jump other than to 100TR, the function shall continue to be processed even if the TR jump key is released. As for
the CRG Move and 100TR Jump, the mechanism shall be set to the Tracking Close mode when the key is released.
When the power is turned on/off the jump mode is reset to the Single TR (91) while the gain of the RFAMP is reset to 0 dB. At the
same time all the self-adjusting values shall return to the default setting.
DEH-P65BT/XN/EW5
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6.2 CHECKING THE GRATING AFTER CHANGING THE PICKUP UNIT
A
Note :
The grating angle of the PU unit cannot be adjusted after the PU unit is changed. The PU unit in the CD mechanism
module is adjusted on the production line to match the CD mechanism module and is thus the best adjusted PU
unit for the CD mechanism module. Changing the PU unit is thus best considered as a last resort. Howe ver, if the
PU unit must be changed, the grating should be checked using the procedure below.
Purpose :
To check that the grating is within an acceptable range when the PU unit is changed.
B
If the grating is off by a large amount symptoms such as being unable to close tracking, being unable to perform
track search operations, or taking a long time for track searching.
Method :
Symptoms of Mal-adjustment :
Measuring Equipment
Measuring Points
Oscilloscope, Two L.P.F.
E, F, REFO1
Disc TCD-782
Mode TEST MODE
CD CORE UNIT(S10.5COMP2)
FE
REFO1
VREF
VREF
L.P.F.
E
100 kΩ
390 pF
F
100 kΩ
390 pF
L.P.F.
XchYch
Oscilloscope
C
D
Checking Procedure
1. In test mode, load the disc and switch the 3 V regulator on.
2. Using the [→] and [←] buttons, move the PU unit to the innermost track.
3. Press key [3] to close focus, the display should read "91". Press key [2] to implement the tracking balance
adjustment the display should now read "81". Press key [3]. The display will change, returning to "81" on the
fourth press.
E
4. As shown in the diagram above, monitor the LPF outputs using the oscilloscope and check that the phase
difference is within 75°. Refer to the photographs supplied to determine the phase angle.
5. If the phase difference is determined to be greater than 75° try changing the PU unit to see if there is any
improvement. If, after trying this a number of times, the grating angle does not become less than 75° then the
mechanism should be judged to be at fault.
Note
Because of eccentricity in the disc and a slight misalignment of the clamping center the grating waveform may be
seen to "wobble" ( the phase difference changes as the disc rotates). The angle specified above indicates the
average angle.
Hint
Reloading the disc changes the clamp position and may decrease the "wobble".
F
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Grating waveform
0°
45°
Ech → Xch 20 mV/div, AC
Fch → Ych 20 mV/div, AC
30°
60°
A
B
C
75°
D
90°
E
F
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6.3 ERROR MODE
If this product is not operative or stopped during operation due to an error , the error mode is turned on and cause(s) of
the error is indicated with a corresponding number. This arrangement is intended at reducing nonsense calls from
A
B
C
D
E
F
the users and also for facilitating trouble analysis and repair work in servicing.
(1) Basic Indication Method
1) When SERRORM is selected for the CSMOD (CD mode area for the system), error codes are written to DMIN
(minutes display area) and DSEC (seconds display area). The same data is written to DMIN and DSEC. DTNO
remains in blank as before.
2) Head unit display examples
Depending on display capability of LCD used, display will vary as shown below. xx contains the error number.
8-digit display6-digit display4-digit display
ERROR - xxERR - xxE - xx
(2) CD Error Code List
Code ClassDisplayed error codeDescription of the code and potential cause(s)
10ElectricityCarriage Home NGCRG can't be moved to inner diameter.
SERVO LSI Com-CRG can't be moved from inner diameter.
munication Error→ Failure on home switch or CRG move mechanism.
Communication error between microcomputer and SERVO LSI.
11ElectricityFocus Servo NGFocusing not available.
→ Stains on rear side of disc or excessive vibrations on REWRITABLE.
12ElectricitySpindle Lock NGSpindle not locked. Sub-code is strange (not readable).
Subcode NG→ Failure on spindle , stains or damages on disc , or e xcessiv e vibr ations .
A disc not containing CD-R data is found.
Turned over disc are found, though rarely.
CD signal error.
17ElectricitySetup NGAGC protection doesn't work. Focus can be easily lost.
→ Damages or stains on disc, or excessiv e vibr ations on REWRITABLE.
30ElectricitySearch Time OutFailed to reach target address.
→ CRG tracking error or damages on disc.
44ElectricityALL SkipSkip setting for all track.
(CD-R/RW)
50
Mechanism
CD On Mech ErrorMechanical error during CD ON.
→ Defective loading motor, mechanical lock and mechanical sensor.
A0SystemPower Supply NGPower (VD) is ground faulted.
→ Failure on SW transistor or power supply (failure on connector).
Remarks: Mechanical errors are not displayed (because a CD is turned off in these errors).
Unreadable TOC does not constitute an error. An intended operation continues in this case.
Upper digits of an error code are subdivided as shown below:
1x: Setup relevant errors, 3x: Search relevant errors, Ax: Other errors.
Bluetooth Error Code List
CodeDisplayed error codeDescription of the code and potential cause(s)
10Built-in
Bluetooth
Bluetooth
communication failure
Initial communication on Bluetooth unit was failed.
--> Failure on lines related to communication (BTPW, BTRST, BTTEST,
BTRX, BTRTS and BTCTS).
Failure on Bluetooth unit.
80Built-in
Bluetooth
Flash memory
Communication failure
Communication on Flash Memory for phone book was failed.
--> Failure on lines related to communication (BTPW, MEMDI, MEMD0,
MEMCK).
Failure on Flash Memory.
Degradation by rewrite time consumption.
62
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6.4 SYSTEM MICROCOMPUTER TEST PROGRAM
- PCL Output
In the normal operation mode (with the detachable panel installed, the ACC switched ON, the standby mode
cancelled), shift the TESTIN IC603(Pin 86) terminal to H.
The clock signal is output from the PCL terminal IC603(Pin 41).
The frequency of the clock signal is 625.000 kHz that is one 32th of the fundamental frequency.
The clock signal should be 625.000 kHz(± 25 Hz).
If the clock signal is out of the range, the X'tal (X601) should be replaced with new one.
A
B
C
D
E
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6.5 BLUETOOTH TEST MODE
- About Memory Clear
A
B
When resetting the microprocessor, the memory is initialized except for the following five items.
This enables user to avoid the task of registering phones and transfering phone directory again even after resetting
system at the time of battery exchange, etc.
• phone book entries on the Bluetooth telephone
• preset numbers on the Bluetooth telephone
• registration assignment of Bluetooth telephone
• call history of Bluetooth telephone
• history of the most recently connected Bluetooth audio
C
D
E
F
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- Bluetooth Test Mode (when using BT-compliant mobile phone)
Specifications for BT Built-in mobile phone
A mobile phone which supports Bluetooth Ver.1.2 and incorporates HFP and OPP is the minimum requirement.
Preferably, select a phone type for which connection has been satisfactory verified.
[6230(Nokia), SonyEricsson(Z600), etc.]
A type with connection waiting function is desirable.
1. Cautions
*These cautions are for the case where mobile phone is actually connected at the service site.
When the mobile phone is actually connected for checking action or the like and the model is registered at the service
site, returning the unit directly to user will leave the telephone information on it which had been registered at the service
site. Thus, in such case, the task to clear only the telephone information used at the service will be required from the
FUNCTION menu.
[Important]
When the mobile phone is actually connected to the registration number of which a user has already registered among
available No.1 through 3 for registration, take note that the telephone information having registered by user will be
overwritten.
2. Outline of Functions
The following 2 items are to be confirmed for the simple BT action check by using BT-compliant mobile phone:
Confirmation of Bluetooth connection (certification connection and voice connection)
Confirmation of BT antenna sensitivity (connection)
3. Configuration Diagram
A
B
C
DEH-P65BT
Bluetooth
D
E
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4. How to Start-up the Test Mode
A
Operation method
Test mode starts by doing Battery and ACC in on while pushing LIST+PHONE keys simultaneously.
Specifications for Operation
AF
↓
After a few seconds, shift to the standby mode
AFWAITING
B
↓
After starting environment search on BT mobile phone side, connecting action (enter PIN code)
Connection completed and the value displayed on the antenna sensitivity part
A ''F******
A: Antenna sensitivity, F: Flash test
****** indicates the name of mobile phone
'': Antenna sensibility value
The value is only a criterion. When the mobile phone
is placed nearest in the front of the product, the value
indicates somewhere between 30 and 60. Other than
this value or the absence of indication refers to the
C
defective BT antenna connection.
D
E
F
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- Bluetooth Test Mode (when using 2.4 GHz-compliant spectrum analyzer)
1. Cautions
* When the service site has a 2.4 GHz-compliant spectrum analyzer, the peripheral facilities shown below are also
required.
Also, the antenna terminal on BT unit must be directly connected to the cable.
A gray coaxial cable connected to the antenna connector on BT unit is removed by taking out the upper case and
CD mechanics of the product.
This task would be safer if a special connector-drawing jig is available.
Next, the U.FL connector from spectrum analyzer is connected. The styling of cable must be taken good care so as
not to add further burden on BT antenna connector and to break it.
2. Outline of Functions
The following confirmation is to be conducted by test mode in order to simply check BT actions using 2.4 GHz-compliant
spectrum analyzer.
* Confirmation of output level of Bluetooth unit
3. Configuration Diagram
2.4 GHz-compliant spectrum analyzer
DEH-P65BT
A
B
C
A
Remove CD mechanics and
connect to ANT connector
inside Bluetooth unit
B
C
D
A: U.FL-SMA conversion adapter
(Hirose Electric Co., Ltd CL311-0301-5)
B: Coaxial cable for SMA microwave
(Stack Electronics Co., Ltd. SMA P-100-STF358)
C: SMA conversion connector
(Stack Electronics Co., Ltd. BA057)
E
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4. How to Start-up the Test Mode
A
Operation method
After Battery and ACC are on while pushing 4+6 keys simultaneously,
BT test mode starts by pushing the PHONE key.
Specifications for Operation
PHONE
↓
LOOPBACK
PEE Sound 1 rings and "LOOP BACK" is displayed.
Select Mode by right & left keys. Select LOC TX NM (data non-modulation).
↓
B
LOCALTXN M
Determine by Center key and select frequency. Initial value is 2402MHz.
Select frequency by Up & Down keys. Initial value is 2402MHz.
02:2402<->41:2441<->80:2480<->95:2495
↓
TXFREQ02 - 2 4 02
↓
Determine by Center key.
C
Screen displaying LOC TX NM Setup Defined. This is the end of product setup.
LOCALTXN MEXE
↓
DISP
↓
Measure each of 02, 41 and 80.
Return to SEL screen by BAND key.
T02R- -G- -EXE
Determine the output level of each frequency by spectrum analyzer upon the above connection.
The output level V must be within the range of the following as a determination standard:
"-6dBm<V<4dBm"
D
E
F
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7. GENERAL INFORMATION
7.1 DIAGNOSIS
7.1.1 DISASSEMBLY
- Removing the Case (not shown)
1. Remove the Case.
A
- Removing the CD Mechanism Module (Fig.1)
1
Remove the four screws.
Disconnect the connector and then remove the
CD Mechanism Module.
- Removing the Grille Assy (Fig.2)
1
Disconnect the Cord Assy by Jig GGF1539.
CD Mechanism Module
1
1
1
1
Fig.1
B
C
2
Remove the two screws and then remove
the Grille Assy.
3
D
2
1
2
E
Grille Assy
Cord Assy
Fig.2
F
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When unplugging the cord assy, make sure to use jig GGF1539.
If the antenna cable is directly unplugged without using jig GGF1539, you might damage your fingertip or fingernail.
A
- How to Remove the Cord Assy
When unplugging cord assy, hook the point of jig GGF1539 on the lid of cord assy and vertically draw out
along with the engagement axis of connector.
GGF1539
Cord Assy
B
Fig.3
Connector
- How to Attach the Cord Assy
For inserting cord assy, adjust cord assy with the engagement axis of connector and insert it as vertically
as possible.
C
Do not insert the cord assy in extreme slant, as the connector might suffer damage.
- Removing the Tuner Amp Unit (Fig.4)
1
Remove the two screws.
2
2
Remove the two screws.
D
3
Straighten the tabs at four locations
2
1
indicated and then remove the
Tuner Amp Unit.
3
1
E
3
3
3
Tuner Amp Unit
Fig.4
F
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-
Removing the Bluetooth Unit (Fig.5)
1
Remove the three solders.
Straighten the tabs at three locations indicated
and then remove the Bluetooth Unit.
1
1
Bluetooth Unit
A
B
1
Fig.5
C
D
E
F
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- How to hold the Mechanism Unit
1. Hold the Upper and Lower Frames.
2. Do not hold the front portion of the Upper
A
B
Frame, because it is not very solid.
Do not squeeze this area.
- Removing the Upper and Lower Frames
1. With a disc inserted and clamped in the
mechanism, remove the two Springs (A), the
six Springs (B), and the four Screws.
2. Tur n the Upper Frame using the part "a" as
C
D
a pivot, and remove the Upper Frame.
3. While lifting the Carriage Mechanism,
remove it from the three Dampers.
Caution: When assembling, be sure to apply
some alcohol to the Dampers and assemble
the mechanism in a clamped state.
B
A
Damper
Carriage Mechanism
B
B
A
Lower Frame
a
Upper Frame
B
B
B
Damper
E
F
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- How to remove the CD Core Unit
1. Apply Shorting Solder to the flexible cable of
the Pickup, and disconnect it from the
connector.
2. Unsolder the four leads, and loosen the
Screw.
3. Remove the CD Core Unit.
Caution: When assembling the CD Core Unit,
assemble it with the SW in a clamped state
so as not to damage it.
CD Core Unit
Shorting Solder
Screw
Solder
- How to remove the Pickup Unit
1. Make the system in the carriage mechanism mode, and have it clamped.
2. Remove the CD Core Unit and remove the leads from the Inner Holder.
3. Remove the Poly Washer, Change Arm, and Pickup Lock Arm.
4. While releasing from the hook of the Inner Holder, lift the end of the Feed Screw.
Caution: When assembling, move the Planet Gear to the load/eject position before setting the Feed Screw in the Inner
Holder.
Assemble the sub unit side of the Pickup, taking the plate (Chassis) in-between. When treating the leads of the Load
Carriage Motor Assy, do not make them loose over the Feed Screw.
A
B
C
Poly W asher
Pickup Lock Arm
Feed Screw
Change Arm
Inner Holder
D
Planet Gear
Pickup Rack
Chassis
E
Pickup
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7.1.2 CONNECTOR FUNCTION DESCRIPTION
A
AUX
AUX
WIRED
B
REMOTE
INPUT
4321
111098
765
IP-BUS INPUT
1. BUS+
2. GND
3. GND
4. NC
5. BUS-
6. GND
7. BUS L+
8. ASENB
9. BUS R+
10. BUS R-
11. BUS L-
MIC
16
15
14
13
12
11
9
C
D
FRONT
OUTPUT
MICROPHONE INPUT
10
8
6
4
2
7
5
3
1
9 RL-
1 B. UP
10 FL-
2 GND
11 RL+
3 NC
12 FL+
13 RR-
4 B. REM
5 ACC
14 FR-
6 NC
15 RR+
7 NC
16 FR+
8 MUTE
REAR OUTPUT OR
E
SUBWOOFER OUTPUT
ANTENNA
F
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7.2 PARTS
7.2.1 IC
PML015B
- Block Diagram
Vp
Pref
PGND
GND
Vref
Vcc
STB
CLK
DATA
&
Supply
Digital
Reference
Block
Pre/SW_L
Secondary
Anti-
Volume
Filter
Radiation
Front_L
Pre/SW_R
Volume
Secondary
Phase inv.LPF
FIE_L
Secondary
Rear_L
FIE
Volume
Secondary
Front_R
Volume
Anti-
FIE_R
Filter
Radiation
Rear_R
FIE
Secondary
- Pin Layout
IN1_L
IN2_L
IN3_L
IN4+_L
IN4-_L
Front_L
Volume
Rear_L
GND
FIE_L
Pre/SW_L
Vcc
Vref
A
1
2
3
28
IN1_R
27
IN2_R
26
IN3_R
B
4
5
6
7
8
9
10
11
12
25
IN4+_R
24
IN4-_R
23
Front_R
22
Rear_R
21
STB
20
CLK
19
DATA
18
FIE_R
17
Pre/SW_R
C
LM_out
Level Meter
IN1_L
IN2_L
IN3_L
Primary
Auto
Gain
Isolator
IN4-_L
IN4+_L
Volume
Zero
Adjuster
Input Selector
Isolator
IN4-_R
IN4+_R
IN3_R
Anti-Alias
IN2_R
IN1_R
Filter
BASS
MID
TRE
HPF
LOUDNESS
Vp
Pref
13
14
16
15
LMout
PGND
D
)
M.S.S.
M.S.
E
Soft step Blocks(
56
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A
sw_vcc
+
-
-
amp_vcc
+
+
-
-
+
+
-
+
+
-
-
+
amp_vcc
B
C
D
Thermal
Protector;
Reference
stby
Offset
Offset
Detection
Offset
Detection
Detection
Offset
Detection
Circuit
Stand-by
Mute circuit
Over current limit
Protector;
25
24
23
22
21
20
19
18
17
16
15
Short circuit
Protector;
14
13
12
11
10
9
8
7
6
5
4
3
2
Over voltage
Protector;
1
SWITCH
P-GND4
OUT4-
MUTE
OUT4+
VCC
OUT3-
P-GND3
OUT3+
AC-GND
IN3
IN4
S-GND
IN2
IN1
SVR
OUT1+
P-GND1
OUT1-
VCC
OUT2+
STBY
OUT2-
P-GND2
TAB
sw_vcc
E
F
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DEH-P65BT/XN/EW5
S99-50084
CS#
SO
W#
GND
1
2
3
4
SCK
SI
SO
CS#
HOLD#
VCC
GND
W#
:Serial clock input
:Serial data input
:Serial data output
:Chip select input
:Hold input
:Supply voltage input
:Ground
:Write protect input
Wired remote control key input
External Memory : Data output
C
External Memory : Data input
External Memory : Clock output
C
External data bus width change input
Processor mode change input
TEL mute input
C
Not used
Reset input
Main clock output
GND
Main clock input
Power supply input
NMI input
RDS : CLK input
RDS : PLL lock detection input
CD mechanism power supply output
C
Not used
Incoming BEEP sound output
C
Not used
P-BUS : Reset output
C
P-BUS : Reception enable input/output
C
BEEP sound output
C
IPBUS : Input
N
IPBUS : Output
N
OEL display microcomputer communication data output
C
OEL display microcomputer communication data input
Not used
P-BUS : Service request input
BT driver : Data output
C
BT driver : Data input
C
Center key import
Rotary encoder pulse input 0
Not used
Display microcomputer chip enable output
Function and Operation
Eject key input
Power supply input
BT driver : CTS input
GND
BT driver : Output for RF test
BT driver : Power supply output
BT driver : Reset output
BT driver : Mute output
For consumption current reduction output
BT driver : RTS output
TUNER : Chip enable output(EEPROM)
TUNER : Chip enable output(PLL)
ROM correction chip select output
ACC sense input
Backup sense input
ROM correction clock output
ROM correction data input/output
EVOL : Strobe output
EVOL : Data output
EVOL : Clock output
IPBUS : Driver power supply control output
IPBUS : Slave ACC sense output
Not used
RDS : 57 kHz pulse count input
RDS : Data input
RDS : Lock signal input
System mute output
Test program input
Not used
Wired remote control AD input
Not used
Flap opening-and-closing sense input
CD RESET output
Not used
Analog GND
Signal level input(Field intensity)
Reference voltage input
Analog power supply input
P-BUS : Input/Test program : data input
P-BUS : Output/Test program : data output
P-BUS : Clock output/Test program : clock output
E2PROM : Data input/output
E2PROM : Clock output
E2PROM : Chip select output
Not used
C
I
I
I
I
LOAD/EJECT direction switching output
Disc sense input
8 cm disc detection input
12 cm disc detection input
HOME SW sense input
Temperature information sense input
VD power supply short circuit/earth fault sense input
C
A/D reference voltage supply control output
Power supply for A/D converter
Ground for A/D converter
I
I
C
Flash writing control terminal
Internal microcomputer reset terminal
Pull-down
Not used
I
Chip check, test program start-up input
Not used
I
N
N
N
N
I
/C
/C
P-BUS : Serial data input
P-BUS : Serial data output
P-BUS : Serial clock input/output
Tx for flash rewriting
Rx for flash rewriting
P-BUS : Reception enable input/output
P-BUS : Service request input
Not used
I
C
I
Flash self-rewriting mode start-up input
Flash self-rewriting reset voltage control
Open(EMPH)
Not used
N
N
C
C
C
C
C
C
I
I
CLOCK request
LRCK reference enable
Pickup hologram power supply control output
CD + 3.3 V power supply control output
Servo driver power supply control output
VD power supply control output
CRG/LOAD-EJECT switching control output
CD mute control output
Test terminal
P-BUS : Communication reset input
Capacitor connection for standby
Power supply for internal microcomputer
Ground for internal microcomputer
I
Connected to the crystal oscillator
Ground for the crystal oscillator
Connected to the crystal oscillator
Power supply for the crystal oscillator
Power supply for DAC
Output of audio for the left channel
Ground for DAC
Connected to the capacitor for band gap
Ground for DAC
Output of audio for the right channel
RDB0-15
IO.GND
IO.VDD
RA0-11
FD
TD
SD
MD
EFM
ASY
ATEST
A.VDD
A.GND
RFI
AGCO
C3T
AGCI
RFO
EQ2,1
RF2RFA.GND
A.VDD
A
B
F
E
REFOUT
FEFEO
ADCIN
TETEO
TE2
TEC
LD
PD
AD.VDD
AD.GND
I/O
I/O
I/O
Format
Function and Operation
Power supply for DAC
Ground for digital circuits
Power supply for digital circuits
A
Capacitor connection for 1.6 V regulator
O
O
O
C
C
C
/C
/C
O
O
O
O
O
O
O
O
C
C
C
C
C
C
C
C
/C
3-wire audio LR clock output
3-wire audio serial I/F clock output
3-wire audio serial I/F data output
Servo monitor input/output 0-2
Servo monitor input/output 3(Ext MCK IN)
DRAM CLOCK
DRAM CS
DRAM CKE output
Output of DRAM RAS
DRAM Lower CAS(LDQM) output
DRAM Upper CAS(UDQM) output
Output of DRAM WE
DRAM OE(CAS) output
Input/output of DRAM data 0-15
B
Ground for I/O terminal
Power supply for I/O terminal
O
O
O
O
O
C
C
C
C
C
O
I
O
Output of DRAM address 0-11
Output of focus drive PWM
Output of tracking drive PWM
Output of thread drive PWM
Output of spindle drive PWM
Output of EFM signals
Asymmetry input
Analog tests
C
Power supply for the analog system
Ground for the analog system
I
O
Input of RF
Output of RF
Connection to the capacitor for detecting 3T
I
O
I
I
I
Input of AGC
Output of RF(AGC)
Equalizer 2, 1
Reversal input of RF2
Reversal input of RF
D
Ground for the analog system
Power supply for the analog system
I
I
I
I
O
I
O
I
I
O
O
I
O
I
Input of A
Input of B
Input of F
Input of E
Output of reference voltage
Reversal input of FE
Output of FE
FE,TE A/D converter input
Reversal input of TE
Output of TE
TE2
TEC
Output of LD
Input of PD
E
Power supply for servo ADC
Ground for servo ADC
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PE5547A
Format Meaning
1081
3673
72109
14 VCC
1A1Y
13 4Y
A
14437
B
TC74VHC02FTS1TC7PAU04FU
1 1Y
2 1A
C CMOS
N Nch open drain
GNDVcc
3 1B
C
12 4B
4 2Y
11 4A
2A2Y
5 2A
6 2B
10 3Y
9 3B
AN6123MS
D
7 GND
8 3A
INPUT GND OUTPUT
34 5
DET
E
gm
21
DETVCC
F
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AK2301A
- Pin Layout
TEST2
MUTEN
24
23
1
2
RSTN
22
3
TEST1
PLLC
21
20
4
5
VSS
19
6
VREF
18
7
TAGND
17
8
VFTP
16
9
VFTN
15
10
GST
14
11
AMP1O
13
12
A
B
- Block Diagram
GST
VFTN
VFTP
-
+
VR
VFR
AMPR
GSR
TAGND
VREF
VDD
VSS
AMPT
-
+
TEST3
BGREF
DX
BCLK
AAF
SMF
AMP1
DR
FS
-
+
GSR
VFR
VDD
A/D
D/A
CODEC Core
Internal
Main Clock
VR
AMP2
AMP2I
AMP2O
AMP1I
PCM I/F
PLL
-
+
DX
DR
FS
BCLK
PLLC
MUTEN
RSTN
TEST1
TEST2
TEST3
C
D
AMP1O
56
AMP1IAMP2OAMP2I
DEH-P65BT/XN/EW5
E
F
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- FM/AM T uner Unit
A
1234
7 6135 10 9 81114 18 19 20 21
NC
CE2
ROM_VDD
DI
SL
CK
CE1
LDET
DO
RDS_CK
RDS_HSLK
RDS_DATA
RDS_LOCK
IC 3 EEPROM
5.0V
OSC
LPF
AM ANT
1
FM ANT
3
B
C
No. SymbolI/O Explain
1 AMANTIAM antenna inputAM antenna input high impedance AMANT pin is connected with
AT T
AT T
ANT adj
FMRF
FMRF
RF adj
IC 1
3.3V
MIXER, IF AMP
T51
CF52
RFGND
OSCGND
DGND
212 1522 16 4 17
AUDIOGNDNCVCC
IC 5
t
5V
3.3V
Rch
IC 2
2.5V
DET, FM MPX,
RDS DECODER
IC 4
t
3.3V 2.5V
3.3V
VDD_3.3
2.5V
24
Lch
23
an all antenna by way of 4.7 µH. (LAU type inductor) A series circuit
including an inductor and a resistor is connected with RF ground for
the countermeasure against the hum of power transmission line.
2 RFGNDRF groundGround of antenna block
3 FMANTIFM antenna inputInput of FM antenna 75 Ω Surge absorber
(DSP-201M-S00B)is necessary.
4 VCCpower supplyThe power supply for analog block. D.C 8.4 V ± 0.3 V
5 SLO signal levelOutput of FM/AM signals level
6 CE2Ichip enable-2Chip enable for EEPROM ”Low” active
7 NCnon connectionNot used
8 CE1Ichip enable-1Chip enable for AF•RF ”High” active
D
9 CKIclockClock
10 DIIdata in Data input
11 LDETO lock detector“Low” active
12 OSCGNDosc ground Ground of oscillator block
13 ROM_VDDpower supplyPower supply for EEPROM pin 13 is connected with a power supply of
micro computer.
14 DOO data outData output
15 DGNDdigital groundGround of digital block
16 NCnon connectionNot used
17 VDD_3.3power supplyThe power supply for digital block. 3.3 V ± 0.2 V
18 RDS_CKO RDS clockOutput of RDS clock(2.5 V)
19 RDS_DATAO RDS dataOutput of RDS data(2.5 V)
E
20 RDS_LOCK O RDS lockOutput unit “High” active(2.5 V) (RDS_LOCK turns over by the
external transistor. “Low” active)
21 RDS_HSLK O RDS high speedOutput unit “High” active(2.5 V)(RDS_HSLK turns over by the
lockexternal transistor. “Low” active)
22 AUDIOGNDaudio groundGround of audio block
23 L chO L channel outputFM stereo “L-ch” signal output or AM audio output
24 R chO R channel outputFM stereo “R-ch” signal output or AM audio output
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7.2.2 DISPLAY
A
B
C
D
E
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7.3 OPERATIONAL FLOW CHART
A
Power ON
VCC1, VCC2 = 5 V
Pin 14, 60
bsens
B
Pin 73
bsens = L
asens
Pin 72
asens = L
dsens
C
Pin 58
dsens = L
ASENBO←H
Pin 80
CSENS
Pin 91
D
2 V < CSENS < 3 V
- 2 V < CSENS < 3 V
Last source returns.
CD loading functions are available.
Keys except for EJECT key are not available.
Starts communication with Grille microcomputer.
300 ms
SWVDD←H
Pin 38
E
Source keys
operative
300 ms
In case of the above signal, the communication
with Grille microcomputer may fail.
If the time interval is not 300 msec, the oscillator
may be defective.
Source ON
SYSPW←H
Pin 1
F
Completes power-on operation.
(After that, proceed to each source operation.)
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8. OPERATIONS
A
B
C
D
E
56
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A
B
C
D
E
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A
B
C
D
E
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A
B
C
D
E
F
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A
B
C
D
E
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- Jigs List
A
Name
Test Disc
L.P.F.
Jig No.
TCD-782
GGF1539
- Grease List
Name
Grease
B
Grease
Before shipping out the product, be sure to clean the
following portions by using the prescribed cleaning
tools:
C
Portions to be cleanedCleaning tools
CD pickup lensesCleaning liquid : GEM1004
Grease No.
GEM1024
GEM1045
Cleaning paper : GED-008
Remarks
Checking the grating
Checking the grating (Two pieces)
Removing the cord assy (BT antenna cable)
Remarks
CD Mechanism Module
CD Mechanism Module
Portions to be cleanedCleaning tools
FansCleaning paper : GED-008
D
E
F
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DEH-P65BT/XN/EW5
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