DVD servo control section (1)
PICKUP ASS'Y
C 1 0 2
C 1 0 1
GND
2 4
V R E F H
VS
2 3
F
0 . 1
VCC
2 2
F
0 . 1
E
E
2 1
F
F
2 0
QAL0786-***
D
D
1 9
A
A
1 8
(OPA-652PH*)
B
B
1 7
C
C
1 6
R F +
+RF
1 5
R 1 3 0
NC
1 4
N I
PD(CD)
1 3
GND
1 2
R 1 0 1
1 0 0
VR(CD)
1 1
LD(CD)
1 0
C 1 0 7
F
0 . 1
LD(DVD)
9
C 1 0 3
F
0 . 1
GND
8
R 1 3 2
R 1 0 2
1 0 0
VR(DVD)
7
C 1 0 4
F
0 . 1
N I
VCC(HF)
6
PD(DVD)
5
F +
F+
4
F -
F-
3
T +
T+
2
T -
Q 1 0 5
R 1 2 6
T-
1
N I
N I
TRA MECHA ASS'Y
FXL-D10-1M
K 1 0 1
N Q R 0 5 0 2 - 0 0 1 X
FEED MOTOR
T P 3 2 3
F M +
QAR0165-001
FM+
8
F M -
FM-
7
R 2 0 1
TRVSW
6
R 2 0 2
4 7 0
SPINDLE MOTOR
SWGND
5
W O U T
1 k
WOUT
4
V O U T
VOUT
3
U O U T
QAR0386-001
UOUT
2
C O M
COM
1
C 2 6 0
0 . 0 2 2
C 2 6 1
0 . 0 2 2
M 9 V
C 2 6 2
0 . 0 2 2
C 2 9 0
T P 2 9 1
MECHA
N I
CHASSIS
T P 2 9 2
R 2 9 0
N I
2 4
2 3
2 2
2 1
2 0
1 9
2 5 2 6 2 7 2 8 2 9 3 0 3 1 3 2 3 3 3 4 3 5 3 6 5 0 3 7 3 8 3 9 4 0 4 1 4 2 4 3 4 4 4 5 4 6 4 7 4 8
T P 2 2 1
R 2 1 5
N I
T R S D R V
M G N D
D1.2V
D 2 V
3 . 9 V
0 V
0 V
D G N D
S 5 V
LASER DRIVER
D V D P W R
T
T
R 1 0 4
R 1 1 2
4 . 3 k
4 . 3 k
R 1 1 5
R 1 0 7
1 k
1 k
Q 1 0 3
Q 1 0 1
Q 1 0 4
Q 1 0 2
2 S C 4 6 1 7 / R / - X
2 S C 4 6 1 7 / R / - X
A D 4
H F M O N
S 5 V
S 3 . 3 V
HFMSW
H F M O N
H A G U P
T R V S W
R F +
D
C
B
C 2 0 3
A
0 . 0 1
M 5 V
C 2 0 5
2 7 0 p
R 2 0 4
T R D R V
L P C 1
N I
2 7 k
C 2 6 4
R 2 0 6
3 0 k
C 2 0 4
R 2 1 9
R 3 8 4
V H A L F 2
F
0 . 1
1 8 k
1 k
1 8
1 7
1 6
1 5
1 4
1 3
4 9
1 2
1 1
1 0
9
8
7
6
5
4
3
2
1
I C 2 0 1
DRIVER
L A 6 5 0 2 - X
R 2 1 3
R 2 0 7
1 0 k
4 7 k
C 2 1 1
C 2 0 6
0 . 0 2 2
1 5 0 p
REG.
C 3 2 8
0 . 0 1
C o n t
C n
0 V
N C
G N D
0 V
N C
N C
1 . 2 V
V i n
V o
I C 3 0 2
M M 1 7 0 1 C H - X
6 4
6 3
6 2
6 1
6 0
5 9
5 8
5 7
5 6
5 5
5 4
5 3
5 2
5 1
5 0
4 9
EEPROM
C 5 6 4
E X A D R 1 8
6 5 E X A D R 1 8
F
0 . 1
E X A D R 1 7
6 6 E X A D R 1 7
E X A D T 7
6 7 E X A D T 7
E X A D T 6
0 V
S D A
G N D
6 8 E X A D T 6
0 V
E X A D T 5
S C L
A 2
6 9 E X A D T 5
E X A D T 4
0 V
W P
A 1
7 0 E X A D T 4
E X A D T 3
3 . 3 V
0 V
V C C
A 0
7 1 E X A D T 3
E X A D T 2
7 2 E X A D T 2
E X A D T 1
7 3 E X A D T 1
I C 5 1 0
E X A D R 2 0
B R 2 4 L 1 6 F V - W - X
7 4 P 1 5
( E X A D R 2 0 )
D A C 2 C S
R 3 1 2
N I
0 V
7 5 P 1 4
( D A C 2 C S )
A D C P D N
R 3 5 0
R 3 1 1
N I
3 . 3 V
7 6 P 1 3
( A D C P D N )
A D I N
0 V
7 7 P 1 2
( A D I N )
9 1 0
0 V
7 8 P 1 1
( S C K )
3 . 3 V
7 9 P 1 0
( S D A )
U C S
R 3 1 0
1 0 0
3 . 3 V
8 0 P 9
( U C S )
0 V
8 1 V S S
0 . 1
F
1 . 2 V
8 2 V D D 1 2
C 3 1 7
3 . 3 V
8 3 V D D 3 3
U C L K
C 3 0 8
R 3 5 3
1 0 0
3 . 3 V
8 4 P 8
( U C L K )
F
0 . 1
U 2 S D T
R 3 8 3
1 0 0
3 . 3 V
8 5 P 7
( U 2 S D T )
S 2 U D T
3 . 3 V
8 6 P 6
( S 2 U D T )
S C S
R 3 1 6
1 k
3 . 3 V
8 7 P 5
( S C S )
L R M U T E
R 3 3 3
3 3 0
3 . 3 V
8 8 P 4
( S E R I A L 1 O U T )
D A C 0 C S
R 3 2 3
N I
3 . 3 V
8 9 P 3
( D A C 0 C S )
D C L K
R 3 2 5
N I
3 . 3 V
9 0 P 2
( D C L K )
D D A T A
R 3 2 4
N I
3 . 3 V
9 1 P 1
( D D A T A )
D A C 1 C S
R 3 2 2
N I
3 . 3 V
9 2 P 0
( D A C 1 C S )
S P M U T E
R 3 7 6
1 k
0 V
9 3 D R V 5
( S P M U T E )
3 . 3 V
9 4 D R V 4
( W P )
3 . 3 V
T P 3 1 9
9 5 D R V 3
R 3 7 4
N I
3 . 3 V
9 6 D R V 2
( H F M O N )
S P D R V
R 3 7 3
1 0 k
1 . 6 V
9 7 D R V 1
( S P D R V )
T R S D R V
R 3 7 2
1 0 k
1 . 6 V
9 8 D R V 0
( T R S D R V )
F G
R 3 0 8
N I
3 . 3 V
9 9 F G
0 . 0 1
0 V
100 V S S
C 3 1 0
C 3 0 9
C 3 5 0 0 . 0 1
3 . 3 V
101 N R S T
F
0 . 1
0 . 1
F
C P U R S T
0 . 0 1 5
3 . 3 V
102 V D D 3 3
1 . 2 V
103 V D D 1 2
R 3 0 9
1 0 0 k
C 3 3 4
F
0 . 1
3 . 3 V
104 A V D D D
F
C 3 3 1
0 . 0 3 3
0 . 9 V
105 P L F L 1
C 3 3 5
0 . 1
0 V
106 A V S S D
C 3 3 3 F
0 . 1
2 . 3 V
107 V R E F H 7
C 3 3 2 F
0 . 1
1 . 8 V
108 V R E F L 7
0 V
109 A V S S C
T P 3 1 6
110 A N A M O N I 1
T P 3 1 5
111 A N A M O N I 2
112 A V D D C
C 3 3 0
R 3 7 1
0 . 5 %
2 0 k
1 . 0 V
113 I R E F R F
F
0 . 1
C 3 3 8
0 . 0 0 5 6
0 V
114 C C A P A
C 3 3 7
0 . 0 1 8
0 V
115 C D A T A
R 3 4 8
N I
C 3 4 8
0 . 1
1 . 8 V
116 R F I N N
0 . 1
C 3 4 7
1 . 8 V
117 R F I N P
R 3 8 2
N I
1 . 6 V
118 V I N 6 R F
1 . 6 V
119 V I N 5 R F
R 3 3 4
N I
C 3 2 3
0 . 1
0 V
120 V I N 4 R F
R 3 3 5
N I
C 3 2 2
0 . 1
0 V
121 V I N 3 R F
R 3 3 7
N I
C 3 2 0
0 . 1
0 V
122 V I N 2 R F
R 3 3 6
N I
C 3 2 1
0 . 1
0 V
123 V I N 1 R F
C 3 1 9
3 . 3 V
124 A V D D B
F
0 . 1
F
1 . 9 V
125 V R E F H 5
C 3 4 9
0 . 1
1 . 4 V
126 V R E H L 5
0 V
127 A V S S B
C 3 1 4
0 V
128 L P C 1
F
0 . 1
129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192
T P 3 3 7
R 3 9 0
N I
R 3 9 1
N I
NOTES
1.
VOLTAGES ARE DC-MEASURED WITH A DIGITAL
VOLT METER
WITHOUT INPUT SIGNAL.
CONDITION ---
A
DVD
disc
in
the
Tray
1
,
and
STOP
mode
.
2. UNLESS OTHERWISE SPECIFIED.
A L L R E S I S T O R S A R E
1/16W
5%
METAL GLAZE RESISTOR.
OR
0.5%
METAL GLAZE RESISTOR.
ALL CAPACITORS ARE
50V
,
25V
,
16V
,
10V
or
6.3V
CERAMIC CAPACITOR
.
ALL RESISTANCE VALUES ARE
IN OHM( ).
A L L C A P A C I T A N C E V A L U E S A R E I N
F(p=pF).
ALL E.CAPACITORS ARE SHOWN IN THE FORM
OF
CAPACITANCE( F)
/RATED VOLTAGE (V).
ALL INDUCTANCE VALUES
A R E I N
H ( m = m H ) .
4 8
4 7
4 6
4 5
4 4
4 3
4 2
4 1
4 0
3 9
3 8
3 7
3 6
3 5
3 4
3 3
3 2
3 1
3 0
2 9
2 8
2 7
2 6
2 5
2 4
2 3
2 2
2 1
2 0
1 9
1 8
1 7
1 6
1 5
1 4
1 3
1 2
1 1
1 0
9
8
7
D V N
I C 3 0 1
M N 2 D S 0 0 1 6 A A
R 3 5 2
1 M
X 3 0 1
N A X 0 7 4 1 - 0 0 1 X
2 7 M H z
N I
C 3 5 7
C 3 5 4
5 6 0 p
C 3 5 3
5 6 0 p
3.
NI STANDS FOR NOT INSERTED PARTS.
A
B
C
P 3 . 3 V
D
E
F
C 3 0 2
4 7 / 4
G
6
5
4
3
2
1
D Q M 1
D Q M 1
256
D Q M 0
D Q M 0
255
M D Q 7
M D Q 7
254
M D Q 8
M D Q 8
253
M D Q 6
M D Q 6
252
M D Q 9
M D Q 9
251
M D Q 5
M D Q 5
250
M D Q 1 0
M D Q 1 0
249
M D Q 4
M D Q 4
248
C 3 0 0
3 . 3 V
V D D 3 3
247
N I
1 . 2 V
C 3 8 3
V D D 1 2
246
F
0 . 1
0 V
V S S
245
M D Q 1 1
M D Q 1 1
244
M D Q 3
M D Q 3
243
M D Q 1 2
M D Q 1 2
242
M D Q 2
M D Q 2
241
M D Q 1 3
M D Q 1 3
240
M D Q 1
M D Q 1
239
M D Q 1 4
M D Q 1 4
238
M D Q 0
M D Q 0
237
M D Q 1 5
M D Q 1 5
236
3 . 3 V
C 3 7 7
V D D 3 3
235
N I
R 3 0 3
M C K
M C K
234
2 2
0 V
V S S
233
M C K
M C K I
232
C 3 0 6
3 . 3 V
V D D 3 3
231
0 . 1
0 V
F
R 3 0 1
S D C L K
( S D C L K )
N D A S P
230
R 3 0 2
N I
3 . 3 V
N I
R 3 0 4
S D W P
( S D W P ) I
N C S 3 F X
229
R 3 0 5
0
4 7 k
S D C D
3 . 3 V
R 3 1 3
( S D C D ) I
N C S 1 F X
228
R 3 1 4
0
0 V
4 7 k
R 3 1 5
S D D A T 1
( S D D A T A 1 )
D A 2
227
R 3 1 7
N I
0 V
N I
R 3 2 0
S D D A T 0
( S D D A T A 0 )
D A 0
226
R 3 2 1
N I
N I
S D C M D
0 V
R 3 4 3
( S D C M D )
N P D I A G
225
R 3 4 4
N I
N I
S D D A T 3
0 V
R 3 9 3
D A 1
( S D D A T A 3 )
224
N I
R 3 9 4
0 V
N I
R 3 9 5
S D D A T 2
( S D D A T A 2 )
I N T R Q
223
N I
TP304
3 . 3 V
( T A L K )
( P 8 3 ) I
N D M A C K
222
R 3 2 7
R 3 9 6
N I
3 . 3 V
1 0 k
V D D 3 3
221
F
C 3 7 8
T U B U Y A K I
0 V
0 . 1
V S S
220
3 . 3 V
T P 3 1 1
( P 7 6 )
I O R D Y
219
T R V S W
3 . 3 V
R 3 7 5
4 7 0
N I O R D
218
( T R V S W )
( P 7 5 )
R 3 2 6
1 0 k
0 V
R 3 2 8
N I
I N D E X
( I N D E X )
( P 7 4 )
N I O W R
217
T R A C K
0 V
R 3 2 9
N I
( T R A C K )
( P 7 3 )
D M A R Q
216
C O P Y
0 V
R 3 3 0
N I
( C O P Y )
( P 7 1 )
H D D 1 5
215
3 . 3 V
R 3 3 1
N I
D E M P
( D E M P )
( P 5 6 )
H D D 0
214
3 . 3 V
T P 3 1 2
( D I S C S T P )
( P 7 0 )
H D D 1 4
213
3 . 3 V
T P 3 1 3
( D I S C S E T )
( P 5 7 )
H D D 1
212
3 . 3 V
T P 3 1 4
( P 6 9 )
H D D 1 3
211
3 . 3 V
C 3 8 6
V D D 3 3
210
N I
C 3 7 9
1 . 2 V
V D D 1 2
209
0 . 1
F
0 V
V S S
208
1 . 6 V
H D D 2
207
N E N
H D D 1 2
206
N O C
H D D 3
205
S P D
H D D 1 1
204
R C V
H D D 4
203
V P O
H D D 1 0
202
V M O
H D D 5
201
N O E
H D D 9
200
C 3 0 5
3 . 3 V
V D D 3 3
199
0 . 1
F
0 V
V S S
198
S U S P E N D
H D D 6
197
V P
H D D 8
196
V M
H D D 7
195
R 3 1 9
3 . 3 V
N R E S E T
194
D A C P D N
3 . 3 V
1 0 k
( D A C P D N )
M A S T E R
193
C 3 7 0
F
0 . 1
4 8 M H z
3
2
1
O S C
4
5
6
R 3 0 7
1 k
R 3 0 6
1 k
C N 3 0 1
LVA10626-121A (1/3)
N I
for
ICE
2-7