Sony CDP-XA20ES Service Manual ▷ View online
Procedure:
1. Connect the oscilloscope to TP2 (FE) and TP (VC) on BD
1. Connect the oscilloscope to TP2 (FE) and TP (VC) on BD
board.
2. Connect the TP3 (FEI: IC101 pin @ª) and TP (VC) with lead
wire.
3. Turned power switch on.
4. Put disc (YEDS-18) in and turned power switch on again and
4. Put disc (YEDS-18) in and turned power switch on again and
actuate the focus search. (actuate the focus search when disc
table is moving in and out.)
table is moving in and out.)
5. Confirm that the oscilloscope waveform (S-curve) is symmetri-
cal between A and B. And confirm peak to peak level within
3.0 ± 1.0 Vp-p.
3.0 ± 1.0 Vp-p.
S-curve waveform
6. After check, remove the lead wire connected in step 2.
Note:
Note:
•
Try to measure several times to make sure that the ratio
of A : B or B : A is more than 10 : 7.
of A : B or B : A is more than 10 : 7.
•
Take sweep time as long as possible and light up the
brightness to obtain best waveform.
brightness to obtain best waveform.
RF Level Check
Connection:
Procedure:
1. Connect the oscilloscope to TP1 (RFO) and TP (VC) on BD
1. Connect the oscilloscope to TP1 (RFO) and TP (VC) on BD
board.
2. Turned power switch on. (stop mode)
3. Put disc (YEDS-18) in and press the
3. Put disc (YEDS-18) in and press the
( button.
4. Confirm that the oscilloscope waveform is clear and check RF
signal level is correct or not.
Note: Clear RF signal waveform means that the shape “≈” can
be clearly distinguished at the center of the waveform.
RF signal waveform
SECTION 5
ELECTRICAL ADJUSTMENTS
VOLT/DIV: 200 mV
TIME/DIV: 500 ns
(with the 10: 1 probe
in use)
TIME/DIV: 500 ns
(with the 10: 1 probe
in use)
level: 1.2
Vp-p
+0.25
–0.20
–0.20
+
–
–
BD board
TP2 (FE)
TP (VC)
oscilloscope
A
B
symmetry
within 3.0 ± 1.0 Vp-p
– 13 –
Notes:
1. CD block basically constructed to operate without adjustment.
1. CD block basically constructed to operate without adjustment.
Therefore, check each item in order given.
2. Use YEDS-18 disc (Part No.: 3-702-101-01) unless otherwise
indicated.
3. Use the oscilloscope with more than 10 M
Ω
impedance.
4. Clean an object lens by an applicator with neutral detergent
when the signal level is low than specified value with the fol-
lowing checks.
lowing checks.
S-Curve Check
Connection:
When observing the eye pattern, set the oscilloscope for AC range
and raise vertical sensitivity.
and raise vertical sensitivity.
+
–
–
BD board
TP4 (TE)
TP (VC)
oscilloscope
(DC range)
level: 1.3 ± 0.7 Vp-p
+
–
–
TP13 (XPLCK)
BD board
frequency counter
A
Symmetry
B
Procedure:
1. Connect the TP18 (ADJ) to ground and TP5 (TEI: IC101 pin
1. Connect the TP18 (ADJ) to ground and TP5 (TEI: IC101 pin
@¶) to TP (VC)with lead wire.
2. Connect the oscilloscope to TP4 (TE) and TP (VC) on BD
board.
3. Turned power switch on.
4. Put disc (YEDS-18) in and press the
4. Put disc (YEDS-18) in and press the
( button.
5. Confirm that the oscilloscope waveform is symmetrical on the
top and bottom in relation to A Vdc, and check this level.
Traverse waveform
A/B
×
100 is ± 20 % or less.
6. After check, remove the lead wire connected in step 1.
RF PLL Free-run Frequency Check
Connection:
Procedure:
1. Connect the frequency counter to TP13 (XPLCK).
2. Turned power switch on.
3. Put disc (YEDS-18) in and press the
1. Connect the frequency counter to TP13 (XPLCK).
2. Turned power switch on.
3. Put disc (YEDS-18) in and press the
( button.
4. Confirm that the reading on frequency counter is 4.3218 MHz.
E-F Balance (Traverse) Check
Connection:
+
–
–
BD board
TP1 (RFO)
TP (VC)
oscilloscope
(AC range)
FOCUS/TRACKING GAIN ADJUSTMENT
VR in optical block is not adjusted.
As this gain has a margin, normally a little shift of gain will not
cause a problem.
If you happened to move VR and you are not sure the original
position, set it to the mechanical center.
As this gain has a margin, normally a little shift of gain will not
cause a problem.
If you happened to move VR and you are not sure the original
position, set it to the mechanical center.
Adjustment Location:
[BD BOARD] – Side B –
[BD BOARD] – Side B –
TP18 (ADJ)
IC361
CN102
CN105
TP13 (XPLCK)
TP (VC)
IC102
IC351
TP1 (RFO)
TP2 (FE)
TP5 (TEI)
TP4 (TE)
CN103
– 14 –
SECTION 6
DIAGRAMS
6-1.
IC PIN FUNCTION DESCRIPTION
Pin No. Pin Name
I/O
Function
1
SRON
O
Sled servo drive PWM signal output terminal Not used (open)
2
SRDR
O
Sled servo drive PWM signal (–) output to the BA6297AFP (IC102)
3
SFON
O
Sled servo drive PWM signal output terminal Not used (open)
4
TFDR
O
Tracking servo drive PWM signal (–) output to the BA6297AFP (IC102)
5
TRON
O
Tracking servo drive PWM signal output terminal Not used (open)
6
TRDR
O
Tracking servo drive PWM signal (+) output to the BA6297AFP (IC102)
7
TFON
O
Tracking servo drive PWM signal output terminal Not used (open)
8
FFDR
O
Focus servo drive PWM signal (+) output to the BA6297AFP (IC102)
9
FRON
O
Focus servo drive PWM signal output terminal Not used (open)
10
FRDR
O
Focus servo drive PWM signal (–) output to the BA6297AFP (IC102)
11
FFON
O
Focus servo drive PWM signal output terminal Not used (open)
12
VCOO
O
Oscillator circuit output terminal for analog PLL of the playback EFM Not used (open)
13
VCOI
I
Oscillator circuit input terminal for analog PLL of the playback EFM Not used (fixed at “L”)
14
TEST
I
Input terminal for the test (fixed at “L”)
15
DVSS
—
Ground terminal (digital system)
16
TES2
I
Input terminal for the test (fixed at “L”)
17
TES3
I
Input terminal for the test (fixed at “L”)
18
PDO
O
Charge-pump output terminal for analog PLL of the playback EFM Not used (open)
19
VPCO
O
PLL charge-pump output terminal for the variable pitch Not used (open)
20
VCKI
I
Clock signal input from external VCO for the variable pitch Not used (fixed at “L”)
21
AVD2
—
Power supply terminal (+5V) (analog system)
22
IGEN
I
Power supply terminal (+5V) (for operational amplifier)
23
AVS2
—
Ground terminal (analog system)
24
ADIO
O
Output terminal of the operational amplifier Not used (open)
25
RFC
I
Input terminal for the A/D converter Not used (open)
26
RFDC
I
RF signal (DC level) input terminal for the digital servo process
27
TE
I
Tracking error signal input from the RF amplifier in optical pick-up
28
SE
I
Sled error signal input from the RF amplifier in optical pick-up
29
FE
I
Focus error signal input from the RF amplifier in optical pick-up
30
VC
I
Middle point voltage (+2.5V) input from the RF amplifier in optical pick-up
31
FILO
O
Filter output terminal for master clock of the playback master PLL
32
FILI
I
Filter input terminal for master clock of the playback master PLL
33
PCO
O
Phase comparison output terminal for master clock of the playback EFM master PLL
34
CLTV
I
Internal VCO control voltage input of the playback master PLL
35
AVS1
—
Ground terminal (analog system)
36
RFAC
I
RF signal (AC level) input terminal for the EFM demodulator
37
BIAS
I
Constant current input terminal of the playback EFM asymmetry circuit
38
ASYI
I
Playback EFM asymmetry comparator voltage input terminal
39
ASYO
O
Playback EFM full-swing output terminal
40
AVD1
—
Power supply terminal (+5V) (analog system)
41
DVDD
—
Power supply terminal (+5V) (digital system)
42
ASYE
I
Playback EFM asymmetry circuit on/off selection input terminal (fixed at “H”)
43
PSSL
I
Audio data output mode selection input terminal (fixed at “L”)
BD BOARD IC101 CXD2545Q
(DIGITAL SIGNAL PROCESSOR, FOCUS/TRACKING/SLED SERVO, EFM COMPARATOR)
(DIGITAL SIGNAL PROCESSOR, FOCUS/TRACKING/SLED SERVO, EFM COMPARATOR)
– 15 –
– 16 –
Pin No. Pin Name
I/O
Function
44
WDCK
O
Word clock signal (88.2 kHz) output terminal Not used (open)
45
LRCK
O
L/R sampling clock signal (44.1 kHz) output to the CXD8505BQ (IC302)
46
DATA
O
DA16 output when PSSL=“H”, 48-bit slot serial data output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Serial data output to the CXD8505BQ (IC302)
(PSSL (pin $£)=fixed at “L”) Serial data output to the CXD8505BQ (IC302)
47
BCLK
O
DA15 output when PSSL=“H”, 48-bit slot bit clock signal output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Bit clock signal (2.8224 MHz) output to the CXD8505BQ (IC302)
(PSSL (pin $£)=fixed at “L”) Bit clock signal (2.8224 MHz) output to the CXD8505BQ (IC302)
48
64 DATA
O
DA14 output when PSSL=“H”, 64-bit slot serial data output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Not used (open)
(PSSL (pin $£)=fixed at “L”) Not used (open)
49
64 BCLK
O
DA13 output when PSSL=“H”, 64-bit slot bit clock signal output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Not used (open)
(PSSL (pin $£)=fixed at “L”) Not used (open)
50
64 LRCK
O
DA12 output when PSSL=“H”, 64-bit slot L/R sampling clock signal output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Not used (open)
(PSSL (pin $£)=fixed at “L”) Not used (open)
51
GTOP
O
DA11 output when PSSL=“H”, GTOP signal output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Not used (open)
(PSSL (pin $£)=fixed at “L”) Not used (open)
52
XUGF
O
DA10 output when PSSL=“H”, XUGF signal output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Not used (open)
(PSSL (pin $£)=fixed at “L”) Not used (open)
53
XPLCK
O
DA09 output when PSSL=“H”, XPLCK signal output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Not used (open)
(PSSL (pin $£)=fixed at “L”) Not used (open)
54
GFS
O
DA08 output when PSSL=“H”, GFS (guard frame sync) signal output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Not used (open)
(PSSL (pin $£)=fixed at “L”) Not used (open)
55
RFCK
O
DA07 output when PSSL=“H”, RFCK (read frame clock) signal output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Not used (open)
(PSSL (pin $£)=fixed at “L”) Not used (open)
56
C2PO
O
DA06 output when PSSL=“H”, C2PO signal output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Not used (open)
(PSSL (pin $£)=fixed at “L”) Not used (open)
57
XRAOF
O
DA05 output when PSSL=“H”, XRAOF (RAM over flow) signal output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Not used (open)
(PSSL (pin $£)=fixed at “L”) Not used (open)
58
MNT3
O
DA04 output when PSSL=“H”, MNT3 (monitor 3) signal output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Not used (open)
(PSSL (pin $£)=fixed at “L”) Not used (open)
59
MNT2
O
DA03 output when PSSL=“H”, MNT2 (monitor 2) signal output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Not used (open)
(PSSL (pin $£)=fixed at “L”) Not used (open)
60
MNT1
O
DA02 output when PSSL=“H”, MNT1 (monitor 1) signal output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Not used (open)
(PSSL (pin $£)=fixed at “L”) Not used (open)
61
MNT0
O
DA01 output when PSSL=“H”, MNT0 (monitor 0) signal output when PSSL=“L”
(PSSL (pin $£)=fixed at “L”) Not used (open)
(PSSL (pin $£)=fixed at “L”) Not used (open)
62
XTAI
I
System clock input terminal (16 MHz)
63
XTAO
O
System clock output terminal (16 MHz) Not used (open)
64
XTSL
I
System clock selection input terminal (fixed at “L”)
65
DVSS
—
Ground terminal (digital system)
66
FSTI
I
2/3 divider input terminal of pins ^™ (XATI) and ^£ (XTAO)
67
FSTO
O
2/3 divider output terminal of pins ^™ (XATI) and ^£ (XTAO)
68
FSOF
O
4.2336 MHz clock signal output terminal Not used (open)
69
C16M
O
16.9344 MHz clock signal output terminal Not used (open)
70
MD2
I
Digital out on/off control signal input terminal (fixed at “H”)
71
DOUT
O
Digital signal (for coaxial out and optical out) output terminal
72
EMPH
O
Emphasis control signal output terminal Not used (open)
73
WFCK
O
Write frame clock signal output terminal Not used (open)
74
SCOR
O
Sub-code sync (S0+S1) detection signal output to the system controller (IC351)
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