Clarion 2060 User manual
wg
1—22-3,
Shibuya
2-chome,
Shibuya-ku,
Tokyo,
150
Japan
-50
Kamitoda,
Toda-shi,
Saitama,
335
Japan
Tel:
048-443-1111
Telex:
J2962628
CLAFAC-J
fern
Service
Manua
Photo
is
CDC9600
MISPECIFICATIONS:
Sampling
Frequency
............
Frequency
Response
...
Dynamic
Range
..........
Signal-to-Noise
Ratio
..
Wow
and
Flutter
......
Power
Supply
..........
Power
Consumption
Unit
Weight
...ccsssecscscsseseees
External
Dimensions
10-9/16"
44,1
kHz
(8
times
oversampling)
....
5
Hz
to
20
kHz
....
95
dB
(1
kHz)
....
105
dB
....
Unmeasurable
w+.
14.4
V
(10.8
V
to
15.6
V)
..
Less
than
1A
2.7
kg
"
(268
mm)
-
%*
Specifications
and
the
design
are
subject
to
change
without
notice
due
to
improvements.
MCOMPONENTS:
@
PE-2073B-A/PE-2073E-A
Mounting
bracket
A
Mounting
bracket
B
Mounting
bracket
C
Extension
lead
Accessory
box
Parts
bag
Clamp
Lead
hoider
Machine
screw
M6
wing
nut
D-sems-hex-bolt
Parts
bag
{
Rubber
cushion
300-9547-00
300-9548-00
300-9582-00
854-2085-00(1
3P)
CAA-122-114
321-0774-00
335-0833-01
714-5006-79(M5
x6)
722-0545-00
734-5008-37(M5
x8)
345-7357-00
Tel:
03-3400-1121
Fax:
03-3400-8679
Telex:
J22908,
22152
Published
by
Service
Information
Section
6
DISC
COMPACT
DISC
CHANGER
2060
(PE-2073B)
CDC9600
(PE-2073E)
Model
MFEATURES:
@
6
Disc
CD
Changer
@
Disc
Indicator
@
Ultra
Compact
Chassis
B
Digital
Output
for
Fiber
Optic
Cable
@
120°
Adjustable
Mounting
Angle
@
8
Times
Over
Sampling
Digital
Filter
&
Spring-Loaded/Oil-Damped
@
Dual
1
Bit
DAC
Suspension
System
@
Zero
Bit
Detector
Mute
Circuit
@
Magazine
Slot
Iilumination
MICAUTIONS:
cpc9600
CD
Changer
Unit
SP
sP
LA
92136
jass
CD
Changer
Unit
Top
View
CAUTION
VORSICHT:
VARNING
AUVARSEL
2060-CDC9600
CAUTIONS:
This
appliance
contains
a
laser
system
and
is
classified
as
a
“CLASS
1
LASER
PRODUCT".
To
use
this
mode!
properly,
read
this
Owner's
Manual
carefully
and
keep
this
manual
for
your
future
reference.
In
case
of
any
trouble
with
this
player,
please
contact
your
nearest
“AUTHORIZED
service
station”.
To
pre-
vent
direct
exposure
to
the
laser
beam,
do
not
try
to
open
the
enclosure.
CAUTION
USE
OF
CONTROLS
OR
ADJUSTMENTS
OR
PERFORMANCE
OF
PROCEDURES
OTHER
THAN
THOSE
SPECIFIED
IN
THE
OWNER’S
MANUAL
MAY
RESULT
IN
HAZARDOUS
RADIA-
TION
EXPOSURE.
MESPECIAL
NOTES:
1.
At
the
time
of
replacing
the
pick-up
unit,
take
measures
for
electrostatic
breakage
(such
as,
protection
with
a
short
pin)
with
attention
given
to
handling.
2.
At
the
time
of
diassembling
the
unit,
be
sure
to
turn
off
the
power.
The
connection
and
disconnection
of
a
connector
during
switch-
ing-on
may
break
the
internal
IC.
(1)
Breakage
caused
by
surge
current
and
static
electricity
Upon
flow
of
large
current
to
LD,
the
de-
terioration
of
LD
is
enhanced
by
strong
light
which
is
emitted
by
LD
itself
even
in
a
very
short
time
or
LD
may
be
broken.
The
LD
drive
circuit
should
be
free
from
flow-
in
of
surge
current
by
the
switch,
etc.
Careless
handling
allows
static
electricity
from
the
human
body
to
be
applied,
causing
instantaneous
breakage.
For
safety’s
sake,
be
sure
to
ground
the
human
body,
measuring
instruments,
and
tools
at
mounting
time.
Place
the
ground
mat
on
the
working
bench,
floor,
etc.
for
ef-
fective
grounding.
The
metal
portion
of
a
soldering
iron
used
should
be
grounded
or
its
insulation
resistance
after
5
minutes
since
the
soldering
iron
was
energized
should
be
more
than
10MQ
(500VDC)
and
the
temper-
ature
of
the
tip
of
the
soldering
should
be
less
than
320°C
(30W).
(2)
2-axle
section
*
Lens
cleaning
Contamination,
such
as
dirt
and
_
dust,
changes
the
performance
of
an
objective
lens.
In
cleaning,
swab
the
lens
gently
with
lens
paper
immersed
in
isopropyl
alcohol.
2060-CDC9600
2
MIWIRE
CONNECTION:
2060
|
OPTION
\
DIGITAL
CONNECTION
|
1
:
Clarion
DSP
DSP-959E
1
i]
*Optical
Digital
Cable
L
(Sold
separately)
ex.
5750
Clarion
Changer
Controller
ee
ere
reer
13
Pin
DIN
Extension
Cable
Note:
*
OPTICAL
DIGITAL
CABLE
(Sold
separately)
...DCA-001-100:
16
foot
Length
(5
m)
..DCA-002-100:
5
foot
Length
(1.5
m)
MWIRE
CONNECTION:
cCDC9600
Front
Amplifier
Speaker
Extension
lead
Rear
Speaker
13-Pin
DIN
Extension
Cable
Le
>
CD
Changer
Unit
CDC9600
Clarion
Main
unit
with
CD
Changer
Controller
Digital
optical
fiber
cable
a
(Sold
separately)
2
LET
TT
“]
|
|
|
|
7
7
—————_
|
DSP
Unit
CD
Changer
Unit
CDC9600
|__Clarion
|
NOTE:
The
main
unit
with
D/A
control
lead
can
be
con-
nected
with
a
digital
optical
fiber
cabie.
MOPERATION:
*%
EJECT
BUTTON
Ejects
the
magazine.
%
DISC
ILLUMINATION
Illumination
is
on
during
playback
and
when
the
unit
is
receiving
power.
%
DISC
INDICATORS
Indicates
operation
of
each
of
the
six
discs
as
follows:
1)
PLAY/TRACK
UP/DOWN
(1,2,3,4,5,6)
Playback
CD
disk
number
indicator
flashes.
2)
FF/FB
Playback
CD
disc
number
indicator
flashes
rapidly.
3)
DISC
CHECK
All
disc
indicator
lights
flash
during
checking.
When
checking
is
finished,
indicators
corresponding
to
Angle
of
installation
selector
levers
Optical
Digital
Output
loaded
discs
in
the
magazine
jliuminate.
4)
DISC
CHANGE
Sliding
Door
The
indicator
flashes
showing
which
disc
has
been
selected.
C-BUS
Terminal
(13P)
5)
EJECT
1239456
©
@©QLQO®
|:
Indicators
continue
to
light
as
shown
in
the
diagram
until
OBO
OBO
eject
is
completed.
B®
O
©
OG
°
:
ngicators
flash
when
EJECT
is
pressed.
When
the
disc
is
Q©OOOOO
fully
ejected,
the
indicators
flash
again.
6)
ERROR
1239456
HOMOGE
|
:
Indicators
light
in
alternate
patterns
as
in
the
diagram.
XBOBOD
7)
STOP
Lights
whether
magazine
is
full
or
empty.
EJECT
Button
Disc
Indicators
MIGENERAL
BLOCK
DIAGRAM:
;7>
CD
MECH
MODULE
---;
:
:
'
:
*
Optical
digitat™!
‘++
DRIVE
UNIT
--77;
'
=
+
out
connector
|
11
968-0050-01
‘
Digital
out
‘
‘
' 1
buffer
'
‘
: ‘
Circuit
!
1
Frame
GND
}
‘
a
3
be
ckupeeneeaseas
Low
pass
[r-----eee7--2
Isolation
|+-----+----+¢
Mute
‘
2
Vec
:
:
'
filter
circuit
circuit Circuit
,
3D
OUT(+)
|
'
'
ee
eer
ee
eee
erry
1
4DOUT(-)
|
'
‘
'
7
Lanchaprlenea
see
H
:
t
H
i
Bi
OS
eed
Ble
Te
acta
Reve
tenes
{
..18P
DIN
.--.,
:
‘
Illumination
|
CONNECTOR
|
: ‘
circuit
=
li.
oe
'
‘
‘
sy
'
:
4
*
|
AUDIO}
‘
:
1:
(7
LOuT
:
!
++
Various
switches:
;
E
"48
ROUT
|
an
and
sensors
es
fs
eerrrer
Cerrrrrrr
rere
ree
eee
6
A.GND
;
it
P/E
SW
'
it
DLP
SW
i
C-BUS
Relay
ky
‘
C-BUS
+
Magazine
SW
‘
ane
switching
H
'
1
so/sl
ae
.
74LSO7
circuit
:
7
'
ms
Load
End
SW
: a
error
ar
2
SCK
;
1}
Disc
NO
PTr
‘ :
4
sRQ.}
‘!
Disc
Eject
PTr
‘ ;
‘
‘
Disc
Load
PTr
‘
‘
:
H
3
Relay
‘
‘
‘
rae
fieatie
*
ee
‘
:
acy
2
K
circuit
=
Ky
4774074005
circuit
‘
5
+B
REM
‘1
rupter
:
‘
‘
eres
ee
ene
ieee
11
Acc
CONT
¢
‘|
Motor
drive
circuit
'
tewaeeeee
! °
10
B/U
'
‘
AN6608
'
*
:
Slave micro
computer
i
Flaset.
12
GND
‘
'
leset,
,
Acc
CONT
H
teeter
ae
ea
.
u»PD78002CW
circuit
:
letecting
9
NC.
‘
'
circuit
13
N.C.
‘
:
t
Motor
drive
circuit
AN6608
eee
2060-CDC9600
MTROUBLE
SHOOTING:
1.
Error
Display
(LED
Blinking)
L1O@ecece
L$@o0e@e0oeo
Repetition
@
Temperature
Error
in
case
an
outside
temperature
of
70°C
or
more
is
continued,
the
operation
is
auto-
matically
stopped
to
protect
the
semi-
conductor
laser
section.
in
this
case,
at
the
moment
the
blinking
of
LED
is
released
after
the
temperature
of
this
unit
was
lowered,
the
operation
can
be
re-
stored
by
the
controller.
Mechanical
Error
A
mechanical
error
occurs
when
the
sensors,
switches,
etc.
become
defective.
In
this
case,
the
mechanical
operation
will
stop
halfway.
*
Removing
the
disc
In
the
above
case,
as
the
disc
is
chucked,
press
the
eject
key
to
eject
the
magazine
only.
Then,
take
away
all
discs
from
the
magazine,
insert
the
magazine,
and
press
the
eject
key
again.
After
loading
the
disc
into
the
position
of
disc
No.
1
in
the
magazine,
eject
the
maga-
zine.
The
insertion
of
the
next
magazine
after
the
disc
removed
provides
the
normal
operation.
MBLOCK
DIAGRAM
OF
DRIVE
UNIT:
968-0032-00
2060-CDC9600
OPTICAL
PICK-UP
BLOCK
KSS-
168A
A
A
aa
paatte
es?
oy
t
bel
¢
ro)
igo
|
|
B53,
53.
8
A!
&
=
=
L
i
Et
Ft
RF
AMP
——
1
CXATOBIQ
Ql
APC
ORIVER
DIGITAL
SIGNAL
PROCESSOR
CXOI167Q
CB,
1C9
Q5~Q20
SERVO
DRIVER
SPINOLE
MOTOR
SLED
MOTOR
@<Servo
Driver
Block>
The
BTL
circuit
consisting
the
power
TR
and
operating
amplifier
allows
the
BTL
operation
to
drive
the
focus
coil,
tracking
coil,
spindle
motor;
and
thread
motor.
@<Spindle
Servo
Gain
Switching
Block>
This
block
consisting
of
Q2
switches
the
spindle
servo
system
gain
by
8-cm
and
12-cm
discs.
@<Antishock
Control
Block>
This
block
consisting
of
Q3
controls
the
antishock
circuit
at
the
time
of
detecting
a
defect
signal.
io
Zz
—
1C6
{
eh
—
ee
|
1C3
ocoo000
0000000
wo Cc
oD
ra)
|
2
2
Ss
ooo0o0o0o0
0000
x 2
a
4
J
~
+5V
5V
i”
s4
——
+9V
9v
Nee
i
—+——-
GND
GND
<+—S-GNO.
22
§-GND
@<Capture
Range
Control
Block>
This
block
consisting
of
Q4
controls
the
PLL
capture
range.
@X<Limit
SW>
This
switch
detects
that
the
pick-up
entered
the
TOC
area.
©<D/A
Converter,
Filter>
By
removing
the
noise
with
the
Filter
IC
(TA2009F)
perfectly,
D/A
conversion
system
is
composed
the
signal
of
differ-
ential
output
from
DAC
IC
(TC9267F).
MIPROCEDURE
FOR
REPAIR
AND
ADJUSTMENT:
1)
Cautions
©
This
unit,
as
operates
on
single
power
supply,
operates
on
the
basis
of
various
mid-point
potential
(such
as,
2.5V
and
4.7V
mid
points).
OWhen
observing
the
operating
state
from
the
reference
by
an
oscilloscope,
connect
CH1
GND
to
the
mid
point
for
measurement.
The
other
probe
GND
should
not
be
con-
nected
anywhere.
OWhen
measuring
the
laser
current,
the
mis-
connection
of
the
measuring
point
may
damage
the
laser
(in
the
pick-up
section).
2)
Test
Disc
OSONY
TYPE4
(YEDS18)
12cm
OABEX
MODEL
TCD-783
8cm
3)
Follow
the
precautions
in
handling
the
pick-
up
of
special
notes
on
page
2.
Adjusting
Tracking
Offset
®
Purpose
To
optimize
the
EF
balance
of
the
tracking
servo.
@
When
adjustment
is
incomplete
It
takes
a
long
time
for
search.
The
carriage
runs
away.
@
Measuring
instrument
Oscilloscope
Connection
diagram
“GND
4)
Adjusting
order
1.
Tracking
offset
2.
Focus
offset
3.
Focus
gain
4.
Tracking
gain
TN
ON
TNS
veo
oP
--VR5
_
Lo®
Lo@
O
=
OQ
F.G
F.OFF
:
VR3
vR2
T.G
er
a
cai
:
@
Measuring
point
TP
TE1
@
Test
disc
and
setting
state
SONY
TYPE4,
normal
mode
@
Adjustment
:
VR1
Oscilloscope
Adjusting
procesure
1.
Make
sure
that
the
power
is
turned
off
and
connect
the
measuring
instrument
as
indi-
cated
in
the
above
diagram.
2.
Play
back
the
first
music
of
SONY
TYPE4.
3.
Perform
the
manual
search
and
check
the
state
of
TR
Jump
(track
jump)
by
an
oscillo-
scope.
Adjust
the
tracking
offset
adjusting
volume
(VR1)
so
that
the
waveform
may
become
symmetrical
in
both
forward
and
reverse
modes.
At
o
Adjust
so
as
to
be
a
=
b.
io”
|
2060-CDC9600
M
Adjusting
the
Tracking
Servo
Loop
Gain
@
Purpose
To
adjust
the
tracking
servo
loop
gain
to
be
optimum
value.
@
When
adjustment
is
incomplete
The
playability
and
vibration
proof
are
deteriorated.
@
Measuring
instrument
Oscillator,
double-pointer
mV
meter
Connection
diagram
@
Measuring
point
SERTR1,
SERTR2,
TP,
TE1,
TE2
@
Test
disc
and
setting
state
SONY
TYPE4,
normal
mode
®@
Adjustment
:
VR4
Oscilloscope
1mS/div
50mV/div
AC
mode
Note:
Oscillator
The
(—)
sides
of
the
other
channels
should
be
open.
nse
Double-pointer
mV
meter
Adjusting
procedure
1.
Preset
the
oscillator.
Set
the
output
amplitude
with
no
load
to
be
1Vp-p
(at
1kHz).
Note:
The
set
value
of
the
output
level
varies
slightly
depending
on
the
oscillator.
This
set
value
is
the
one
when
the
oscillator
of
about
5000
output
im-
pedance
is
used.
Adjustment
should
be
made
under
the
condition
in
which
the
servo
can
be
activated
stably
even
after
the
output
of
the
oscillator
was
applied,
causing
no
mistracking.
Low
output
impedance
provides
low
set
output.
M
Adjusting
the
Focus
Servo
Loop
Gain
®
Purpose
To
adjust
the
focus
servo
loop
gain
to
be
optimum
value.
@
When
adjustment
is
incomplete
The
playability
and
vibration
proof
are
deteriorated.
S
detection
is
apt
to
fail.
2060-CDC9600
2.
Make
sure
that
the
power
is
turned
off
and
connect
the
measuring
instruments
as_indi-
cated
in
the
above
diagram.
3.
Play
back
the
first
music
of
SONY
TYPE4.
4.
Adjust
the
tracking
gain
adjusting
volume
(VR4)
so
that
the
error
of
the
double-pointer
mV
meter
may
be
not
more
than
0+0.5dB
(under
the
condition
in
which
1kHz
output
is
generated
from
the
oscillator).
@
Measuring
instrument
Oscillator,
double-pointer
mV
meter
®
Measuring
point
TP
FE1,
FE2
®@
Test
disc
and
setting
state
SONY
TYPE4,
normal
mode
®@
Adjustment
:
VR3
Connection
diagram
Oscilloscope
Note:
The
(—)
sides
of
the
other
channels
should
be
open.
Adjusting
procedure
1.
Preset
the
oscillator.
Set
the
output
amplitude
with
no
load
to
be
1Vp-p
(at
1kHz).
Note:
The
set
value
of
the
output
level
varies
slightly
depending
on
the
oscillator.
This
set
value
is
the
one
when
the
oscillator
of
about
5000
output
im-
pedance
is
used.
Adjustment
should
be
made
under
the
condition
in
which
the
servo
can
be
activated
stably
even
after
the
output
of
the
oscillator
was
applied,
causing
no
mistracking.
Low
output
impedance
provides
low
set
output.
@
Adjusting
the
Focus
Offset
@
Purpose
To
adjust
the
focus
servo
bias
to
be
optimum
value.
@
When
adjustment
is
incomplete
The
focus
is
hard
to
be
closed.
Playability
is
deteriorated.
Connection
diagram
ion
Navas
.
Make
sure
that
the
power
is
turned
off
and
connect
the
measuring
instruments
as
indi-
cated
in
the
above
diagram.
.
Play
back
the
first
music
of
SONY
TYPE4
in
the
normal
mode.
.
Adjust
the
tracking
gain
adjusting
volume
(VR3)
so
that
the
error
of
the
double-pointer
mV
meter
may
be
not
more
than
0+0.5dB
(under
the
condition
in
which
1kHz
output
is
genereated
from
the
oscillator).
@
Measuring
instrument
Oscilloscope
@
Measuring
point
RF
@
Test
disc
and
setting
state
SONY
TYPE4,
normal
mode
@
Adjustment
:
VR2
Oscilloscope
0.2uS/div
0.2V/div
AC
mode
Sigma
mode
at
range
of
30ns
Rise
edge
mode
|
2060-CDC9600
Adjusting
procedure
1.
2.
Play
back
the
first
music
in
the
normal
mode.
Connect
the
RF
OUT
to
the
jitter
meter
(Meguro)
and
adjust
the
focus
offset
adjusting
volume
(VR2)
so
that
the
jitter
may
be
opti-
mized.
When
there
is
no
jitter
meter,
observe
the
RF
OUT
based
on
GND
by
an
oscilloscope
and
adjust
VR2
so
that
RF
may
be
maximized
and
the
eye
pattern
may
be
omptimized.
@
Adjusting
VCO
Free-run
Frequency
®
Purpose
To
adjust
the
free-run
frequency
of
reference
clock
for
EFM
decoder
to
be
optimum
value.
®
When
adjustment
is
incomplete
Spindle
lock
is
impossible.
The
sound
is
not
emitted
or
breaks.
The
long
access
time
is
long.
(22
music
>
1
music
or
1
music
+
22
music
by
SONY
TYPE4).
Connection
diagram
WN
=
A
5
SO
Note:
Use
the
probe
of
10:
1
for
connection
to
the
jitter
meter.
@
Measuring
instrument
Frequency
counter,
various
jigs
for
test
mode
@
Measuring
point
Pin
70
of
PLCK
CXD1167
@
Adjustment
:
VR5
DC
power
supply
|
(Set
to
4.8~4.5V,)
cee
eee
Frequency
counter
.
Remove
the
mechanical
module
from
the
set.
.
Short-circuit
ASY
to
GND.
.
Connect
A-Vcc
and
5V
to
the
DC
power
supply.
.
Turn
ON
the
power.
.
Read
the
numeric
value
from
the
frequency
counter.
.
Adjust
to
be
F=4.2O0MHz+
10kHz.
.
Turn
OFF
the
power.
.
Disconnect
the
connection.
2060-CDC9600
=f
MEXPLANATION
OF
IC’s:
%1C’s
other
than
explained
below
are
described
in
Service
Manual
TEXPLANATION
OF
IC’s,
Vol.2~Vol.4.
BAN6608
051-1765-00
2-speed
electronic
governor
IC
for
forward/backward
rotation
of
DC
motor
Outward
Form
Block
Diagram
To
mechanical
computer
1.02
:
(3900ppm/"C)
Drive
mode
switching
logic
i:
R5
4.
21.5KO
(3900ppm/*C)
MIMC74HCU04F
051-0859-36
HEX
INVERTER
Outward
Form
FETT
14
O
1
4.27
Terminal
Connection
1A
1Y
2A
2Y
3A
3Y
GND
@NJM2103M
051-0869-55
Terminal
Connection
System
Reset
IC
ae
8]
RESET
Vse
12
|
Vsq
OUT.
[3
|
6
|
Vse/RESIN
GND
[4
|
Voc
(Top
View)
Block
Diagram
Vsa/RESIN
C
RESET
OUT;
2060-CDC9600
HSN74LSO7NS
051-0160-06
6
Circuit
Buffer/Driver
Gate
Outward
Form
Vec
6A
6Y
5A
5Y
4A
4Y
SC7SO8F
051-1738-35
TC7SO8F
051-1738-05
Outward
Form
a
2
Input
And
Gate
Block
Diagram
vcc
2060-CDC9600
Truth
Table
WTC9267F
051-1766-05
D/A
Converter
With
Digital
Filter
Outward
Form
&
Terminal
Connection
vob
LRCK
BCK
DATA
RESET
OSCE
ATT(MUTE)
SHIFT
(EM2)
LATCH(EMT)
MCK
LZ
Input
data
interface
Digital
zero
detect
circuit
Timing
Eight
times
oversampling
digital
filter
generator
Oscillation
circuit
P/S
RZ
TEST
VDA
RO RO
a
GNDA
[G
LO
VDA
GNDX
XI
x0
—10—
Pin
Description
Function
Pin
for
switching
between
serial
and
parallel
control.
Pin
for
output
of
R-channel
digital
zero
detection
signal.
Test
pin.
This
pin
is
usually
used
at
Low
level.
Analog
power
pin
for
R-channel
DA
converter.
Pin for
normal
output
of
R-channei
data.
Pin for
reversal
output
of
R-channel
data.
Analog
GND
pin
for
R-channel
DA
converter.
Analog
GND
pin
for
L-channel
DA
converter.
Pin
for
reversal
output
of
L-channel
data.
Pin
for
normal
output
of
L-channel
data.
Analog
power
pin
for
L-channel
DA
converter.
GND
pin
for
oscillating
element.
Pins
for
connection
of
crystal
oscillator.
These
pins
generate
clock
signals
necessary
for
the
system.
Power
pin
for
oscillating
element.
GND
pin
for
logic
element.
Pin
for
selection
of
clock
signal.
Pin for
output
of
L-channel
digital
zero
detection
signal.
Pin
for
output
of
system
clock
signal.
Pin
for
input
of
attenuator
data
latch
signal
in
serial
control.
Pin
for
selection
of
deemphasis
filter
mode
in
parallel
control.
Pin
for
input
of
attenuator
shift
clock
signal
in
serial
control.
Pin
for
selection
of
deemphasis
filter
mode
in
parallel
control.
Pin
for
input
of
attenuator
data
in
serial
control.
Pin
for
muting
in
parallel
control.
Mute
is
turned
on
at
Low
level.
Pin
for
system
clock
control.
The
system
clock
stops
at
Low
level.
Reset
pin.
Pin
for
input
of
data.
Pin for
input
of
bit
clock
signal.
Pin
for
input
of
L/R
clock
signal.
BuPD78002CW-012
Outward
Form
Power
pin
for
lagic
element.
051-1779-00
CD
Changer
Controller
58.68MAX-
Terminal
Description
N.C
—
|
No
connection.
6
ie)
7
|
8
fsck
|
|
A
terminal
which
receives
serial
clock
from
C-BUS.
Inserting
window
A
terminal
which
receives
or
sends
SO/SI
signal
of
C-BUS.
SO:
Used
as
data
output,
BUSY
signal
and
READY
signal.
SI:
A
mode
in
which
address
or
command
from
the
master
CPU
is
being
waited
without
data
input
and
communication.
A
terminal
which
sends
C-BUS
service
request.
The
terminal
is
turned
from
“H”
to
“L”
to
have
the
master
read data
informing
a
change
in
the
status
of
a
slave
CPU.
The
terminal
is
turned
from
“L"
to
“H”
after
an
address
has
been
received
from
the
master
CPU.
A
terminal
which
controls
the
inserting
window
illumination.
The
illumination
is
turned
ON
when
the
terminal
is
turned
to
“H’.
illumination
11
RELAY
A
terminal
which
controls
AUDIO
RELAY
of
the
external
select
box.
The
terminal
is
controlled
by
the
command
of
C-BUS.
Normally,
‘“H”
is
output-
ted
when
the
autochanger
is
in
the
PLAY
mode.
12
PON
2
D
EMPH
ie}
GFS
1
‘OK
F
A
terminal
which
controls
two
system
powers.
When
the
autochanger
is
in
the
PLAY
mode,
this
port
is
turned
to
“H"
to
supply
power
to
CD
ICs
“CXA1082"
and
"CXD1167".
In
the
STOP
mode
when
the
spindle
motor
stops,
the
terminal
is
turned
to
“L”
to
turn
the
power
of
CD
IC
OFF.
A
terminal
which
controls
one
system
power.
When
ACC
detection
is
turned
to
“H™
(ACC
CONT
from
the
head
unit
is
turned
“L‘’)
or
when
EJECT
detection
is
turned
“H"
with
the
ACC
detection
turned
“L",
this
port
is
turned
to
“H”’
to
turn
the
power
of
entire
system
ON.
A
terminal
which
controls
de-emphasis.
It
outputs
“L”
when
a
disc
provided
with
emphasis
is
played
back.
A
terminal
which
indicates
that
the
frame
sink
of
CXD1167
is
locked.
"H’’
indicates
normal
oper-
ation,
and
“L”
error.
=
w
A
terminal
which
receives
signal
from
the
focus
OK
comparator
output
terminal
of
CXA1082.
“HH”
indicates
FOCUS
OK,
and
“L"
FOCUS
NG.
Vss
—
|
GND
terminal.
O
|
A
terminal
which
controls
the
analog
mute
circuit.
In
the
PLAYBACK
or
manual
search
mode,
the
terminal
is
turned
to
“L”
to
reset
muting.
=
co)
=
N
CD
ROM
O
|}A
terminal
which
outputs
Audio/ROM
mode
controller
of
CXD1167.
D
MUTE
0
|A
terminal
which
controls
digital
muting
of
CXD1167.
When
ATTM
of
Internal
Register
“A”
in
CXD1167
is
“O",
the
terminal
is
turned
to
“L”
and
audio
signal
is
outputted
normally.
When
the
terminal
is
turned
to
“H’’,
no
sound
is
produced
with
—oodB.
O
{A
terminal
which
outputs
the
serial
data
transfer
clock.
A
terminal
which
outputs
latch.
A
terminal
which
outputs
serial
data
to
control
the
CD
servo
IC
“CXA1082”
and
the
signal
processing
IC
“CXD1167".
A
terminal
which
outputs
SUB-Q
readout
clock
of
CD
Ic.
A
terminal
which
resets
CXA1082
and
CXD1167.
A
terminal
which
controls
LEDs.
LED-1
through
LED-6
correspond
to
Disc
Numbers
in
the
magazine.
in
normal
operation,
the
terminal
indicates
presence
of
the
disc.
If
temperature
error,
mechanical
error,
memory
error
or
forced
eject
error
occurs,
the
terminal
indicates
the
applicable
error.
GND
terminal.
A
terminal
which
receives
door
switch
signal.
When
the
door
is
opened,
the
terminal
is
turned
to
‘“H".
When
the
door
is
closed,
the
terminal
is
turned
to
“L”.
2060-CDC9600
Function
Pin
No.
Symbol
34
ESE
SEL
35
U/D
MCW
36
U/D
M
CCW
37
PLM
CCW
PLM
CW
LED
CONT
3
44
ACC
CONT
A
terminal
which
selects
ACC
OFF
EJECT
DISABLE
signal.
When
the
terminal
is
turned
to
"H’’,
ACC
is
turned
OFF
and
EJECT
key
is
turned
ON
to
enable
EJECT
Operation.
When
it
is
turned
to
“L’’,
EJECT
is
disabied.
O
{A
terminal
which
controls
magazine's
eject
and
disc's
up/down
operation
(clamp).
||
eee
|
sre
|
Magazine
UP
DOWN
|
EJECT
Peowew
[oe
oe
eee
[uo
weow
[a
[oe
[ae
ef]
A
terminal
which
controls
horizontal
drive
of
the
disc
to
check,
load
and
store
the
disc.
3
+B
REM
i
A
terminal
which
inputs
+B-REMOTE
terminal.
When
6-pin
LED
SEL
terminal
is
turned
to
“L",
this
terminal controls
six
LEDs
and
_
inserting
window
illumination.
The
Jamp
fights
when
the
6-pin
LED
SEL
terminal
is
turned
to
“L’’,
and
it
turns
out
when
the
terminal
is
turned
to
“H”’.
t
9
40
LED
SEL
A
terminal
which
inputs
LED
indication.
When
the
terminal
is
turned
to
“H",
six
LEDs
and
the
inserting
window
illumination
is
controlled
by
a
command
on
C-BUS.
When
it
is
turned
to
“L’,
the
LEDs
and
illumination
is
controlled
by
7-pin
+B
REM
terminal.
A
terminal
which
receives
signal
of
a
switch
which
detects
approximate
loading,
chucking
and
eject
positions
in
the
up/down
direction
of
the
mecha-
nism.
O
{A
terminal
which
controls
LED
ON/OFF
operation
of
Disc
No.
PTr
and
Disc
detection
PTr.
The
terminal
is
turned
to
“H™
when
the
mechanism
runs.
4
RESET
|
|
A
terminal
which
resets
the
{C.
|
A
terminal
which
receives
signal
from
the
sub-
code
sink
SO/SI
output
terminal
of
CXD1167.
In
the
PLAY
mode,
the
terminal
is
turned
to
“H”
every
13.3mS
to
read
sub-Q
data.
A
terminal
which
inputs
NMI
(Non-Maskable
interrupt).
With
input
of
the
“H”
pulse
longer
than
10uS,
the
terminal
resets
the
STOP
mode
of
clock
stop
and
CPU
shifts
to
the
operation
mode
after
elapse
of
clock
oscillation
stability
period.
Eject
detection
Magazine
SW
A
terminal
which
receives
signal
from
the
EJECT
key.
When
the
terminal
is
turned
to
“H",
the
magazine
is
ejected.
A
terminal
which
receives
signal
from
a
switch
detecting
insertion
of
the
magazine.
When
the
terminal
is
turned
to
‘L’’,
the
magazine
is
inserted.
Power
supply
terminal
(+5V
+
10%).
4MHz
terminal
which
is
connected
to
the
ceramic
resonator
to
oscillate
system
clock.
B/U
detection
Vss
GND
terminal.
A
terminal
which
receives
BACK-UP
detection
signal.
When
BACK-UP
is
turned
OFF
to
turn
the
terminal
to
"L’,
CPU
is
put
in
the
STOP
mode.
GND
terminal.
DISC
NO.
PTr
|
2060-CDC9600
A
terminal
which
receives
signal
from
DISC
NO.
detection
photosensor.
The
terminal
determines
accurate
position
on
PTr
by
detecting
approx.
position
in
the
up/down
direction
of
the
mechanism
with
P/E
switch.
Accurate
position
is
determined
when
the
terminal
is
turned
to
“L"’.
(Used
as
A/D
port)
Disc
detection
PTr
Disc load
PTr
Function
A
terminal
which
receives
signal
of
the
DISC
presence
detection
photosensor.
The
terminal
determines
status
(presence}
of
the
disc
in
the
magazine,
perfect
ejection
of
the
disc
and
its
storage
in
the
magazine.
“H':
Disc
detected
(being
loaded
or
unloaded}
(Used
as
A/D
port)
A
terminal
which
receives
signal
of
the
DISC
loading.
LoadEndSW
Temperature
sensor
A
terminal
which
receives
signal
of
a
switch
detecting
that
the
disc
has
been
ejected
entirely
from
the
magazine.
When
the
terminal
is
turned
to
“H",
the
disc
has
been
ejected.
A
terminal
which
receives
signal
of
a
switch
detecting
whether
the
mechanism
can
move
up
and
down.
When
the
terminal
is
turned
to
“L",
the
mechanism
can
move
up
and
down.
A
terminal
which
judges
high
temperature
when
voltage
applied
to
this
port
becomes
lower
than
2.5V.
When
the
voltage
is
higher
than
2.7V,
temperature
NG
is
reset
to
shift
to
the
operation
mode.
(Used
as
A/D
port)
A
terminal
which
receives
sub-Q
data
from
CXD1167.
A
terminal
which
controls
CD
by
receiving
FZC,
AS,
TZC,
SSTOP
and
BUSY,
etc.
from
CXA1082
and
CXD1167.
Power
supply
terminal
(+5V
+10%).
GND
terminal.
MPARTS
LIST:
©Electrical
section
MAIN
PWB
PART
NO.
DESCRIPTION
REF
NO.
PART
NO.
DESCRIPTION
Qr
D201,
203,
204
001-0330-00
DIODE
155119
X301
060-0146-50
CERA-RESONATOR
*CST4.
00
309,
310,
501)
001-0352-00
188176
Q202,
501
100-1561-50
TRANSISTOR
2SA1561
001-0377-30
DIODE
MA4051H
101-1240-50
TRANSISTOR
2SB1240
0305,
701,
8011
102-4038-50
TRANSISTOR
29C4038
103-1450-50
TRANSISTOR
2SD1450
d
4
001-0400-30
HZS5.
LEB3
001-0377-48
DIODE
MA4091H
103-1683-50
TRANSISTOR
2SD1683
|
001-0400-48
HZS9.
1JB3
Q201,
303,
304
103-1858-50
TRANSISTOR
25D1858
001-0377-49
DIODE
MA4100L
601
001-0400-49
HZS10JB1
:
Q203,
301,
602
125-
604
Q102,
105,
204
125-2016-91}
TRANSISTOR
DTC114
302,
502,
603
|
1
|
R102
114-4711-1]}
METAL
FILM-R
1W
470
R901
114-5681-1]]
METAL
FILM-R
IW
0.569
160-2212-09
CERAMIC-C_220pF
001-0423-24
001-0425-24
:
fon)
POLYESTER-C_
1000pF
173-1521-11}
POLYESTER-C
1500pF
CHIP-C
1000pF
7
ks
C101,
708,
808
CHIP-C
0.1
uaF
HLACTRO-C
SOV
1
C201,
705,
805
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41
|
620-0389-00
42
|
345-7368-01
INSULATOR
621-0206-00
|
DISC
ROLLER
B
71
|
621-0209-00
|
UG-RO-SLEEVE
i
OF
2060-CDC9600
|
This manual suits for next models
3
Table of contents
