Pioneer SF-700 Setup guide
INSTALLATION,
OPERATION
AND
SERVICE
MANUAL
Including
PARTS
LIST,
CIRCUIT
DIAGRAMS,
AND
MOUNTING
TEMPLATE
YQ
PIONEER
FEATURES
A
PROFESSIONAL
LEVEL
COMPONENT
The
SF-700
employs
specially
selected
‘low-noise”
tran-
sistors
throughout.
All
parts
are
precision-made.
There
is
no
insertion
loss
and
entirely
negligible
distortion.
PRECISE
CONTROL
There
are
3
kinds
of
cutoff
characteristics
available
to
obtain
ideal
tone,
according
to
your
speaker
systems
and
room
acoustics.
The
SF-700
gives
you
individual
output
control
for
perfect
matching
or
speakers
and
amplifier.
VERSATILITY
A
three-dimensional
system
is
possible
with
the
SF-700.
Various
crossover
frequencies
can
be
selected
for
perfect
reproduction
in
either
a
2-channel
of
3-channel
system.
EASY
TO
USE
The
panel
of
the
SF-700
has
been
carefully
laid
out
to
provide
easy-reading
controls
and
simple
operation.
7
ees
(IORCER
STEREO
SYSTEM
EXAMPLES
USING
SF-700
1.
Typical
stereo
systems
using
PIONEER
UA
series
units.
s+creo
tuner
TWEETER
(UR)
HIGH
RANGE
STEREO
POWER
AMP.
'SM-700
MID
RANGE
HIGH
jam
maria
R
oo00000
ie
4
oooo
eo
STEREO
PREAMP.
SF-700
LOW|sTEREO
POWER
AMP.
sc-700
sM-700
WOOFER
(LR)
LOW
RANGE
STEREO
POWER
AMP.
5M-700
Fig.
2
2. If
you
have
separate
stereo
preamplifier
and
stereo
power
stereo
TUNER
TWEETER
1X-700
HIGH
RANGE
(LR)
amplifiers,
arrange
your
system
referring
to
the
system
configurations
shown
in
Figs.
2
and
3.
STEREO
POWER
AMP.
‘'SM-700
goores
nic
|Low-mio
RANGE
me
oo0000
=
o-
+0000
frowbee
STEREO
PREAMP.
SF-700
STEREO
POWER
AMP.
sc-700
SM-700
Fig.
3
8.
Typical
stereo
system
using
an
amplifier
unit
containing
TWEETER
both
a
stereo
preamplifier
and
a
stereo
power
amplifier.
HiGHERANGE:
(or)
aes
STEREO
POWER
AMP.
SM-700
MID
RANGE.
a.
The
preamplifier
and
power
amplifier
sections
of
the
unit
can
be
used
separately.
In
this
case,
a
three-way
stereo
system
may
be
constructed
as
shown
at
etre
een.
miets
MID
RANGE
(LR)
+
7
‘.
0000
°
fo
right
(For
a
two-way
system,
omit
the
midrange
{°
aes
77
re
|
|
channel
).
=
STEREO
POWER
AMP.
SM-700
wooreR
cere
oureut)|
iwain
inpur)
_
(LR)
Low
RANGE
<1
St
)
PREAMP.
UNIT MAIN
AMP,
UNIT
STEREO
PRE-MAIN
AMP,
OR
STEREO
RECEIVER
%#
SW--PRE
&
MAIN
SwiTCH
Fig.
4
b.
If
the
preamplifier
and
power
amplifier
sections
of
the
unit
cannot
be
used
separately,
a
three-way
stereo
system
may
be
constructed
as
shown
at
right
(For
a
two-way
system,
omit
the
midrange
channel
).
4,
3-dimensional
system
A
3-D
stereo
system
can
be
constructed
essentially
in
the
same
way
as
explained
in
1,
2
and
3
on
the
previous
page,
except
for
the
low-channel
range
connection.
The
low-channel
output
should
be
derived
from
the
CENTER
CHANNEL
terminal
of
the
SF-700
and
connected
to
a
monophonic
power
amplifier.
A
8-D
system
does
not
require
a
stereo
power
amplifier
for
the
low-channel
range
and,
hence,
requires
only
one
woofer
in
the
system.
One
consideration
in
constructing
a
3-D
system
is
to
set
the
crossover
frequency
between
the
low
and
the
middle
channel
ranges
to
either
125
Hz
or
250
Hz,
because
the
3-D
system
makes
use
of
the
non-directional
characteristic
of
low
frequencies.
MULTICHANNEL
AMPLIFIER
SYSTEM
CONNECTIONS
PREAMPLIFIER
CONNECTION
Connect
the
INPUT
of
the
SF-700
to
the
output
jack
of
your
preamplifier.
If
your
stereo
amplifier
contains
both
a
preamplifier
and
power
amplifiers
which
can
be
used
separately,
connect
the
INPUT
of
the
SF-700
to
the
PREAMP
OUTPUT
of
the
amplifier.
Note
that
the
INPUT
jack
on
top
is
for
the
left-channel
connection,
and
that
the
one
on
the
bottom
is
for
the
right-channel
connection.
Be
sure
that
the
left
and
right-
channel
INPUT
jacks
of
the
SF-700
are
properly
connected
to
the
corresponding
channel
output
jacks
of
the
preampli-
fiers.
3
TWEETER
(OR)
HIGH
RANGE
1
a
Rec
|
MONITOR
MID
RANGE,
HIGH]
MIO
RANGE
(LR)
ss
|
ry
il
OOOO.
Low
RANGE
E
+9
STEREO
PRE-MAIN
AMP,
SA-700
Fig.
5
TWEETER
(LR)
-———
STEREO
RECEIVER
pivioING
Nate
ANGE
OR
STEREO
PRE-MAIN
AMP.
NETWORK
(LR)
a}
wooreR
(CENTER
CHANNEL)
CENTER
ans
{eo
_
|
Eel
POWER
AMP.
Fig.
6
HIGH
Si
2k
4k
6k
8k
I
kHz
Si
LEFT
IkHz
2k
4k
6k 8k
INPUT
oe)
Nas
EMITTER
'
FOLLOWER
I25Hz
250
SA
700
1000
AW
Si,
S2:--CROSSOVER
FREQUENCY
SELECTORS
S3,
Sa,
Ss,
SE---
SLOPE
SELECTORS
VR1,
VR2,
VR3er
LEVEL
CONTROLS
BRON
eet
HIGH
LEVEL
\
HIGH
RANGE
+
—fo
OUTPUT
VRi
\
‘
\
MID
-
Low
ae
MID
LEVEL
125Hz
250
500
700
1000
\
\
\
x
1
MID
RANGE
at
WS
ouTPUT
fOFF
VR2
—,
/
7
/
/
/
rs
LOW
LEVEL
/
LOW
RANGE
:
©)
OUTPUT
VR3
CENTER
CHANNEL
OUTPUT
GHT
IANNEL
ELECTORONIC
CROSSOVER
NETWORK
F-700
fa
PIONGCER
SwiTCHES
$,
CROSSOVER
FREQ,
SELECTOR
(MID-HIGH)
Sg~Se
SLOPE
SELECTOR
1)
OFF
Sp
HIGH
S__
MID“
HI
2)
thle
Se
MID-LON
S_
LOM
3)
Dele
1)
638
/ect
2)
1288/ect
CAPACITORS
3)
1bdB/oct
NONMARK
=
pF
Sq
POWER
SWITCH
P
oF
5)
ele
CROSSOVER
FREQ.
SELECTOR
(LOW-MIO)
1)
12SHe
2)
250H2
3)
500Kz
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T00H2
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5
HOW
Pome
TOTAL
“lO
MAK
TOTAL
THREE-WAY
SYSTEM
CONNECTION
To
construct
a
three-way
system,
you
must
have
three
stereo
power
amplifiers,
one
each
for
the
low-,
middle-,
and
high-
channel
ranges,
and
their
corresponding
speakers
(a
woofer,
a
midrange
and
a
tweeter).
If
you
have
a
stereo
amplifier
containing
both
a
preamplifier
and
power
ampli-
fiers,
you
need
only
two
additional
stereo
power
amplifiers.
1.
Connect
the
LOW
output
jacks
of
the
SF-700
to
the
LOW
input
jacks
of
your
power
amplifier.
If
you
are
planning
to
use
the
power
amplifier
section
of
your
amplifier
for
this
purpose,
connect
the
LOW
output
jacks
of
the
SF-700
to
the
input
jacks
of
the
power
amplifier
section.
2.
Connect
the
MID
output
jacks
of
the
SF-700
to
the
MID
input
jacks
of
the
second
power
amplifier.
3.
Connect
the
HIGH
output
jacks
of
the
SF-700
to
the
HIGH
input
jacks
of
the
third
power
amplifier.
Note
that
the
LOW,
MID,
and
HIGH
output
jacks
on
the
top
are
for
the
left
channel
connections,
and
those
on
the
bottom,
for
the
right
channel
connections.
Be
sure
that
the
left-
and
right-channel
output
jacks
of
the
SF-700
are
properly
connected
to
the
corresponding
channel
input
jacks
of
your
power
amplifiers.
TWO-WAY
SYSTEM
To
construct
a
two-way
system,
you
must
have
two
stereo
power
amplifiers,
one
each
being
for
the
low-
and
high-
channel
ranges,
and
their
corresponding
speakers.
If
you
have
a
stereo
amplifier
containing
both
a
preamplifier
and
power
amplifier.
1.
Connect
the
LOW
output
jacks
of
the
SF-700
to
the
LOW
input
jacks
of
your
power
amplifier.
If
you
are
planning
to
use
the
power
amplifier
section
of
your
amplifier
for
this
purpose,
connect
the
LOW
output
jacks
of
the
SF-700
to
the
input
jacks
of
the
power
amplifier
section.
2.
Connect
the
HIGH
output
jacks
of
the
SF-700
to
the
HIGH
input
jacks
of
the
other
power
amplifier.
3-DIMENSIONAL
(3-D)
SYSTEM
1.
Connect
the
CENTER
CHANNEL
output
jack
of
the
SF-700
to
the
input
jack
of
your
power
amplifier.
2.
For
a
three-way
3-D
system,
connect
the
MID
and
HIGH
output
jacks
of
the
SF-700
to
the
corresponding
input
jacks
of
the
middle-
and
high-frequency
channel
power
amplifiers
in
the
same
way
as
explained
for
the
three-
way
system
connection.
For
a
two-way
3-D
system,
connect
only
the
HIGH
output
jacks
of
the
SF-700
to
the
input
jacks
of
the
high-frequency
channel
power
amplifier.
aFIONEER
CONNECTION
DIAGRAM
STEREO
TUNER
O*O0000
5
¢
©
0ee
STEREO
PREAMPLIFIER
TO
BE
CONNECTED
TO
GROUND
TERMINALS
OF
PREAMP.
AND
POWER
ANP.
SPEAKER
SYSTEMS
HIGH
RANGE
(TWEETER)
STEREO
POWER
AMPLIFIER
(HIGH
RANGE)
MID
RANGE
Low
RANGE
(WOOFER)
STEREO
POWER
AMPLI
(MID
RANGE)
HIGH
RANGE
(TWEETER)
STEREO
POWER
AMPLIFIER
(LOW
RANGE)
MID
RANGE
LOW
RANGE
(WOOFER)
AC
OUTLET
“=
300VA TOTAL
SWITCHED
-0-
B3OOVA
TOTAL
UNSWITCHED
CENTER
al
¥e
hal
|
FUSE
O.3A
POWER
CORD
-O-
&)
(Huw
Fig.
7
SWITCHES
AND
CONTROLS
ON
FRONT
PANEL
eae
Fee
@
POWER
Controls
power
to
the
SF-700
unit.
@
LEVEL
LOW
Controls
the
low-channel
output
level.
Turning
it
clock-
wise
will
increase
the
level,
and
turning
it
counterclock-
wise
will
decrease
the
level.
=
LOW-MID
LOW-
MID
MID—
HIGH
Selects
the
crossover
frequency
between
the
low-channel
fi
fs
fa
fo
fe
and
the
middle-channel
ranges.
Setting
this
switch
to
L
Uo
ee
OFF
will
defeat
the
function
of
this
switch
and
allow
LOW
the
MID-HIGH
switch
to
determine
the
crossover
fre-
quency
between
the
middle-channel
(including
the
low-
channel
range)
and
the
high-
channel
range.
With
this
switch
set
to
OFF,
no
output
is
present
at
the
MID
Fig.
9
output
jacks.
@
LEVEL
MID
LOW-MID
CROSSOVER
FREQUENCY
(Hz)
LEVE;
MID
MID}HIGH
LEVEL
HIGH
2k
°
ELECTRONIC
CROSSOVER
model
SF-700
=
+
SLOPE
(dB/oct)+_________
Fig.
8
Controls
the
middle-channel
output
level.
The
use
of
this
switch
is
essentially
the
same
as
that
of
LEVEL
LOW.
MID-HIGH
Selects
the
crossover
frequency
between
the
middle-
channel
and
the
high-channel
ranges.
Setting
this
switch
to
OFF
will
defeat
the
function
of
this
switch
and
allow
the
LOW-MID
switch
to
determine
the
crossover
frequency
between
the
low-channel
range
and
the
middle-channel
range
(including
the
high-
channel
range).
With
this
switch
set
to
OFF,
no
output
will
be
present
at
the
MID
output
jacks.
NOTE:
If
both
LOW-MID
and
MID-HIGH
are
set
to
OFF,
no
output
will
appear
at
any
output
jack.
_—@
LEVEL
HIGH
Controls
the
high-channel
output
level.
The
use
of
this
switch
is
essentially
the
same
as
that
of
LEVEL
LOW.
@
SLOPE
Selects
the
crossover
cut-off
characteristics
of
the
SF-700
outputs.
Each
SLOPE
switch
can
select
either
6
dB/oct.,
12
dB/oct.
and
18
dB/oct.
cut-off
characteristics.
6aB/oct
e
LOW
648
/oct
Selects
the
cut-off
characteristic
of
the
middle-channel
sail.
\
\
side
of
the
low-channel
range.
veanéet/
|
reas/oct
—
aanjct,
\
2a
e
MID.
L
zh
fi
fa
2h
Selects
the
cut-off
characteristic
of
the
low-
channel
Fig.
10
side
of
the
middle-charinel
_
range.
e
MID.
H
Selects
the
cut-off
characteristic
of
the
high-channel
side
of
the
middle-channel
range.
e
HIGH
Selects
the
cut-off
characteristic
of
the
middle-
channel
side
of
the
high-channel
range.
MOUNTING
TEMPLATE
FOR
MODEL
SF-'700
yh
ys
edd
Cutout
for
front
panel
mounting
in
cabinet
(Horizontal)
(94)
11/7
376
(Can
also
be
used
for
vertical
mounting)
Upssiiidiliiélés
7’
16
ie
1]
(290)
Ji
Fig.
|
if
Front
panel
of
cabinet
R
w
fl
=e
|
3”
!
8
57
ZA
Be
GB)
poe
83
(220)
—|_.-
|
3
(35)
re
Drill
hole
for
securing
N
3”
'
the
network
to
shelf
Pay
eS
DIA
(9.5)
'
i
\
a
a
“eee
Lo
3’DIA
95
a
Fig.
2
UNIT
:
inch
(mm)
aa
—
Front
panel
of
network
Fig
3
Washer
Screw
=e
Network
shelf
IMPORTANT
INSTRUCTIONS
I.
Follow
the
dimensions
as
shown.
Measure
template
before
using
because
of
possibility
of
paper
shrinkage.
.
Open
the
front
panel
of
cabinet
as
shown
in
Fig.1!.
The
top
of
the
network
shelf
should
be
higher
than
the
bottom
side
of
the
cutout.
(See
@)
in
fig.3.)
Prepare
the
network
shelf
as
shown
in
Fig.2.
Remove
the
four
feet
on
the
bottom
plate.
Secure
the
network
in
position
on
the
network
shelf
with
the
screws
and
washers.
PRINTED
IN
JAPAN
inns
|
ICP
ICEIR
OPERATION
e
A
multichannel
amplifier
system
includes
several
addi-
tional
controls
and
adjustments
as
compared
with
an
ordinary
stereo
system.
To
get
the
best
performance
from
your
multichannel
amplifier
system,
you
must
set
these
controls
and
adjustments
properly.
Universal
pro-
cedures
for
adjustment
of
multichannel
amplifier
systems
cannot
be
described,
because
the
resulting
performance
varies
from
one
system
to
another,
depending
on
the
quality
and
characteristics
of
the
preamplifiers,
power
amplifiers,
and
speakers
used,
and
also
the
room
acous-
tics.
Therefore,
at
the
final
stage
of
adjustment,
you
may
have
to
depend
on
your
own
ears
for
best
performance
of
your
system.
®
Before
turning
the
SF-700
on,
make
sure
that
all
connections
have
been
properly
made.
It
is
advisable
to
turn
off
the
power
switches
of
the
power
amplifiers
or
to
reduce
the
volumes
of
the
power
amplifiers
to
minimum
whenever
changing
the
switch
or
control
settings
of
the
SF-700.
THREE-WAY
SYSTEM
1.
Turn
the
LEVEL
LOW,
LEVEL
MID
and
LEVEL
HIGH
controls
fully
counterclockwise.
(This
sets
the
output
levels
to
minimum.)
2.
Check
the
brochures
of
the
speakers
to
be
used
and
find
the
recommended
crossover
frequencies
for
them.
Set
the
LOW-MID
and
MID-HIGH
switches
of
the
SF-700
to
the
recommended
crossover
frequencies.
T
8.
Use
the
SLOPE
switches
for
selecting
the
cut-off
charac-
WOOFER
teristics
of
the
low-,
middle-
and
high-
channel
ranges.
The
optimum
cut-off
characteristic
for
one
frequency
range
is
usually
determined
from
the
cut-off
frequency
aa
of
the
speaker
to
be
used
(beyond
which
the
speaker
is
unable
to
reproduce
sound
)
and
the
crossover
frequency
an
a
ern
=
ie
of
the
particular
frequency
range.
For
example,
if
a
3am
reqp7ocr
(12542)
Ctiz)
FREQUENCY
IN
He
woofer’s
cut-off
characteristic
is
2
kHz
and
it is
used
at
Fig.
11
1
kHz
crossover,
optimum
performance
may
be
obtained
:
with
the
LOW
SLOPE
switch
set
to
a
cut-off
of
18
TWEETER
dB/octave.
On
the
other
hand,
if
the
same
woofer
is
used
Tedb/oct
12B/oct
eltei/pct
for
125
Hz
or
250
Hz
crossover,
optimum
performance
Ca
may
be
obtained
with
the
LOW
SLOPE
switch
set
to
a
|
cut-off
of
6
dB/octave.
In
general,
if
the
gap
between
the
crossover
frequency
selected
and
the
cut-off
frequency
of
|
|
the
speaker
is
small,
18
dB/octave
is
recommended
as
the
7
Be
TREE
ae
a
cut-off
characteristic,
and
if
the
gap
between
the
cross-
FREQUENCY
IN’
Hz
over
frequency
selected
and
the
cut-off
frequency
is
large,
Fig.
12
6
dB/octave
or
12
dB/octave
is
recommended
as
the
cut-off
characteristic
of
the
particular
frequency
range.
4.
Set
all
volume
controls
of
the
preamplifier
to
the
lowest
levels
and
then
turn
the
amplifiers
on.
5.
Turn
the
preamplifier
volume
controls
to
their
mid-
points,
turn
the
level
controls
of
the
SF-700
to
their
midpoints,
and
start
playing
a
record.
ae
ee
ee
a
6.
Increase
the
preamplifier
volumes
gradually
until
the
output
reaches
an
optimum
level.
7.
Listen
carefully
to
the
music
reproduced
by
the
system
and,
if
desired,
readjust
the
switches
and
level
controls
of
the
SF-700
for
optimum
performance,
in
keeping
with
the
room
acoustics.
TWO-WAY
SYSTEM
1.
Check
the
brochures
of
the
speakers
to
be
used
and
find
the
recommended
crossover
frequency
for
them.
Set the
LOW-MID
or
MID-HIGH
switch
to
the
crossover
fre-
quency.
For
example,
if
the
crossover
frequency
is
to
be
set
to
500
Hz,
set
the
LOW-MID
switch
to
500
and
the
MID-HIGH
switch
to
OFF.
If
the
crossover
frequency
is
to
be
set
to
2000
Hz
(2
kHz),
set
the
MID-HIGH
switch
to
2K
and
the
LOW-MID
switch
to
OFF.
2.The
cut-off
characteristic
should
be
selected
in
the
following
way:
If
the
LOW-MID
switch
has
been
set
to
OFF,
use
the
MID-L
and
HIGH
switches
to
select
a
desired
cut-off
characteristic.
If
the
MID-HIGH
switch
has
been
set
to
OFF,
use
the
LOW
and
MID-L
switches
to
select
a
desired
cut-off
characteristic.
Setting
for
a
three-way
system
also
apply
to
a
two-way
system.
8.
The
operating
procedures
for
the
SF-700,
preamplifier
and
power
amplifiers
are
essentially
the
same
as
those
(par.
4
to
par.
7)
mentioned
for
a
three-way
system.
3-D
SYSTEM
1.
Set
the
LOW-MID
switch
to
125
or
250
If
the
system
is
three
ways,
use
the
MID-HIGH
switch
to
select
the
crossover
frequency
recommended
in
the
brochure
of
the
speakers
to
be
used.
2.The
cut-off
characteristic
should
be
selected
in
the
following
way:
Set
the
LOW
switch
to
18
dB/octave,
and
set
the
MID-L
switch
to
an
optimum
slope
determined
from
the
characteristic
of
the
midrange
speakers
used.
8.The
subsequent
operating
procedures
for
the
SF-700,
preamplifier
and
power
amplifiers
are
essentially
the
same
as
those
described
in
par.
4
to
7
under
“Three-way
System.”
es
(IONECER
ACOUSTIC
PHASE
OF
SPEAKERS
e@
In
a
multichannel
amplifier
system,
sound
is
divided
into
several
frequency
ranges
by
means
of
12
dB/octave
or
18
dB/octave
filters.
In
such
system,
a
more
natural
sound
effect
may
often
be
obtained
by
reversing
the
acoustic
phases
of
the
speakers
used.
If
the
middle-
and
high-
frequency
channel
power
amplifiers
are
provided
with
phase
reversing
switches,
operate
the
switches
while
listening
to
the
music,
to
see
if
a
better
effect
results.
If
the
power
amplifiers
have
no
such
provision,
reverse
the
speaker
terminal
connections.
SPECIFICATIONS
SEMICONDUCTORS
Transistors.
Diodes...
CHANNELS
2
channels
LOW
Range
&
HIGH
Range
3
channels
LOW
Range,
MID
Range
&
HIGH
Range
Input
Impedance
100kQ
at
1kHz
Output
Voltage
3.5V
(each
channel)
Output
Impedance
Less
than
200kQ
at
1kHz
Load
Impedance
More
than
20kQ
at
1kHz
Harmonic
Distortion
Less
than
0.3%
Insertion
Loss
Less
than
-2dB
SN
Ratio
More
than
85dB
CROSSOVER
FREQUENCY
For
3
channels
LOW-MID
125Hz,250Hz,500Hz,700Hz,1kHz
MID-HIGH
1kHz,2kHz,4kHz,6kHz,8kHz
For
2
channels
125Hz,250Hz,500Hz,700Hz,1kHz
2kHz,4kHz,6kHz,8kHz
Slope
Selectors
LOW
6dB/oct.
12dB/oct.
18dB/oct.
MID-L
6dB/oct.
12dB/oct.
18dB/oct.
MID-H
—
6dB/oct.
12dB/oct.
18dB/oct.
HIGH
6dB/oct.
12dB/oct.
18dB/oct.
CENTER
CHANNEL
OUTPUT
TERMINAL
Output
Impedance
4k
at
70Hz
Load
Impedance
More
than
4k2
at
70Hz
MISCELLANEOUS
Power
Requirements
120Volts
Power
Consumption
6VA
Dimensions
(over-all)
1113/16”
or
300mm
(width)
41/2"
or
15mm
(height)
10”
or
254mm
(depth)
Weight
Without
package
9
|b
or
4.1
kg
With
package
11
1b40z
or
5.1
kg
Ee
SEIT
PARTS
LAYOUT
MiO-HIGH
Low-mo
CROSSOVER
FREQUENCY)
LEVEL
HIGH
Level
mip
LEVEL
Low
LEVEL
CONTROL
HIGH
MDH
——
Mou
Low
SLOPE
(@B/oct)
POWER
SWITCH
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POWER
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CROSSOVER
FREQUENCY
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SLOPE
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PARTS
LIST
C57
|
Mylar
0.12
50V
|
COMA
124K
50
C58
|Mylar
0.12
50V
|
COMA
124K
50
59.
[Mylar
0.068
SOV
|
COMA
683K
50
CAPACITORS
C60
[Mylar
0.068
SOV
COMA
683K
50
|
61
|Mylar
0.033
50V
|
COMA
333K
50
ee
ie
DNL
ESS
OTHERWISE
62.
[Mylar
0.033
SOV
|
COMA
333K
50
E
|
c63.
|mylar
0.022
SOV
|
COMA
223K
50
am
C64
|Mylar
0.022
50V
|
COMA
223K
50
Symbol]
Description
[eect
NOE
|
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0.015
50V
|
COMA
153K
50
C1
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SOV
|
COSA
102/50
C66
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0.015
SOV
|
COMA
153K
50
C2
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1000p
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=+5%
SOV
|
COSA
102J50
C67
|Styrol
1000p
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|
COSA
102/50
C3
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0,015
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|
CQMA
153K
50
C68
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1000p
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SOV
|
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102)
50
C4
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0.015
SOV
|
COMA
153K
50
C69
|[Styrol
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45%
50V
|
COSA
392)
50
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Mylar
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50v
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74.
|Mylar
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|
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|
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|
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|
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C76
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C77‘
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C13
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|
COSA
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C78
[Mylar
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50V
|
COMA
153K
50
C14
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1000p
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SOV
|
COSA
102)
50
C79
[Electrolytic
1
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|
CEMX
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C15
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SOV
|
COMA
153K
50
C80
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|
CEMX
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C16
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0.015
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COMA
153K
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81
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|
C43-003-0
C17
|
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|
COSA
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RESISTORS
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50V
|
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INQ,
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C22.
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NOTED
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|
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102J
50
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82K-J
26
|Styrol
1000p
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|
COSA
101150
|
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film
82K
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RF“%PS
82K-J
C27
|
Mylar
0.015
sov
|
COMA
153K
50
|
R3_
Carbon
film
39K
45%
RF%PS
39K-J
C28.
|
Mylar
0015
sov
|
COMA
153K
50
R4
[Carbon
film
39K
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39K-J
29
|
Mylar
0.0082
50v
|
COMA
822K
50
R5
|Carbon
film
18K
45%
|
REMPS
18K-J
C30.
|
Mylar
0.0082
50V
|
COMA
822K
50
R6
|Carbon
film
18K
—
+5%
RF%PS
18K-J
C31.
|Styrol
0.0039
45%
SOV
|
COSA
392/50
R7
|Carbon
film
12K
—
+5%
REMPS
12K
C32
|Styrol
0.0039
+5%
SOV
|
COSA
392) 50
R8
[Carbon
film
12K
£5%
|
RF“PS
12K
32
|Styrol
0.0027
45%
SOV
|
COSA
2725
50
RQ
Carbon
film
10K
=
£5%
[:BERPS
20K
C34
|styrot
0.0027
45%
S0V
|
COSA
272/50
R10
|Carbon
film
10K
=
25%
RFPS
10K-J
35.
|[Styrot
2200p
45%
SOV
|
COSA
222)
50
R11
|Carbon
film
82K
—
+5%
RF%PS
82K-J
36
|Styrol
2200p
45%
50V
|
COSA
222J
50
R12
|Carbon
film
82K
+5%
RF%PS
82K-J
37
|Mylar
0.12
50V
|
COMA
124K
50
R13
|Carbon
film
39K
+5%
RF%PS
39K-J
38
|Mylar
0.12
Sov
|
COMA
124K
50
R14
[Carbon
film
39K
45%
RFY%PS
39K-J
C39.
Mylar
0.068
50V
|
COMA
683K
50
R15
|Carbon
film
18K
—
+5%
RF%PS
18K-J
C40.
Mylar
0.068
50V
|
COMA
683K
50
R16
|Carbon
film
18K
—-+5%
|
RE4PS
18K
C41.
Mylar
0.033
50V
|
COMA
333K
50
R17
|Carbon
film
12K
—
+5%
RF%PS
12K-J
C42.
|Mylar
0.033
SOV
|
COMA
333K
50
R18
|Carbon
film
12K
45%
RFYPS
12K-J
43.
|Mylar
0.022
OV
|
COMA
223K
50
R19
|Carbon
film
10K
—
+5%
RF%PS
10KJ
C44.
|Mylar
0.022
OV
|
COMA
223K
50
R20
|Carbon
film
10K
+5%
RE%PS
10K-J
cas.
|Mylar
0.015
50V
|
COMA
153K
50
R21
|Carbon
film
82K
5%
RE“PS
82K-J
46.
|Mylar
0.015
50V
|
COMA
153K
50
R22
|Carbon
film
82K
+6%
RF%PS
82K-J
47
|Mylar
0.12
50V
|
COMA
124K
50
R23
|Carbon
film
39K
+5%
|
RF%PS
39K-J
cas
|Mylar
012
50V
|
COMA
124K
50
R24
|Carbon
film
39K
45%
RF%PS
39K
c49.
[Mylar
0.068
50V
|
COMA
683K
50
R25
|Carbon
film
18K
+5%
RF“PS
18K-J
cso.
|Mylar
0.068
50V
|
COMA
683K
50
R26
|Carbon
film
18K
—
$5%
RF“PS
18K-J
51.
|
Mylar
0.033
50V
|
COMA
333K
50
R27
|Carbon
film
12K
+6%
RE%PS
12K-J
C52.
|Mylar
0.033
50V
|
COMA
333K
50
R28
|Carbon
film
12K
—
+5%
RE%PS
12K-J
53.
[Mylar
0.022
50V
|
COMA
223K
50
R29
|Carbon
film
10K
—
+5%
RE%PS
10K-J
54.
{Mylar
0.022
50V
|
COMA
223K
50
R30
|Carbon
film
10K
+5%
RFPS
10K
|
css.
|Mylar
0015
50V
|
COMA
153K
50
R31
|
Carbon
film
100K
—
+5%
RF%PS
100K
|
56
|
Mylar
0.015
s0V
|
COMA
153K
50
R32
[Carbon
film
100K
+5%
RFY%PS
100KJ
LL
NES
|
DA
BE
Ee
R66
R67
R68
R69
R70
R71
R72
R73
R74
R75,
R76
R77
R78
R79
R80
R81
R82
R83
R84
R85
R86
R87
R88
R89
R90
RQ1
R92
R93
R94
ROS
ROG
R97
|Carbon
film
|Carbon
film
‘Carbon
film
ICarbon
film
[Carbon
film
ICarbon
film
Carbon
film
Carbon
film
Cartoon
film
Cartoon
film
Carbon
film
Carbon
film
Carbon
film
Carbon
film
Carbon
film
Carbon
film
Carbon
film
Carbon
film
Carbon
film
Carbon
film
Carbon
film
Carbon
film
‘Carbon
film
‘Carbon
film
Carbon
film
Carbon
film
Carbon
film
Carbon
film
Carbon
film
‘Carbon
film
Carbon
film
Cartoon
film
‘Carbon
film
Carbon
film
Carbon
film
Carbon
film
|Carbon
film
|Carbon
film
\Carbon
film
\Carbon
film
Carbon
film
\Carbon
film
|Carbon
film
(Carbon
film
(Carbon
film
Carbon
film
(Carbon
film
Carbon
film
Carbon
film
\Carbon
film
\Carbon
film
Carbon
(Carbon
film
Carbon
film
Carbon
film
\carbon
film
{Carbon
film
(Carbon
film
|carbon
|Carbon
film
\carbon
film
\Carbon
film
iCarbon
film
\Carbon
film
(Carbon
film
560K
560K
180K
180K
56K
56K
22K
22K
15K
15K
10K
10K
100K
100K
560K
560K
180K
180K
RF%PS
560K-J
RF‘%PS 560K-J
RF“PS
180K-J
RF“%PS
180K-J
RFPS
56K-J
RF“PS
56K-J
RFPS
22K-J
RF“PS
22K-J
RF&%PS
15K-J
RF&%PS
15K-J
RF“PS
10K-J
RF‘%PS
10K-J
RF“%PS
100K-S
RF%PS
100K-J
RF“%PS
560K-J
RF%PS
560K-J
RF“%PS
180K-J
RF%PS
180K-J
RF%PS
56K-J
RF%PS
56K-J
RF“%PS
22K-J
RFPS
22K-J
RF“%PS
15K-J
RF“%PS
15K-J
RF%PS
10K-J
RF%PS
10K-J
RF%PS
100K-J
RFPS
100K-J
RF“PS
560K-J
RF%PS
S60K-J
RF%PS
180K-J
RF“PS
180K-J
RF“%PS
56K-J
RF%PS
56K-J
RF
“PS
22K-J
RFY%PS
22K-J
RF%PS
15K-J
RF%PS
15K-J
RF&%PS
10K-J
RF%PS
10K-J
RF&%PS
22K-J
RF“PS
22K-J
RF“%PS
4R7K-J
RF&%PS
4R7K-J
RF%PS
10K-J
RF%PS
10K-J
RF%PS
22K-5
RF“PS
22K-J
RFPS
4R7K-J
RF%PS
4R7K-JS
RF%PS
12K-J
RFPS
12K-J
RF%PS
1M-K
RF“PS
1M-K
RFPS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RFPS
1M-K
RFPS
1M-K
RFPS
1M-K
RFPS
1M-K
RF&%PS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RF%PS
1M-K
R98
R99
R100
R101
R102
R103
R104
R105
R106
R107
R108
R109
R110
R111
R112
R113
R114
R115
R116
R117
R118
R119
R120
R121
R122
R123
R124
R125
R126
R127
R128
R129
R130
R131
R132
R133
|
R134
R135,
R136
R137
R138
R139
R140
R141
R142
R143
R144
R145
R146
R147
R148
R149
R150
R151
R152
R153
R154
R155
R156
R157
R158
R159
R160
R161
R162
fearon
film
Carbon
film
(Carbon
film
(Carbon
film
(Carbon
film
arbon
film
(Carbon
film
(Carbon
film
(Carbon
film
[Carbon
film
(Carbon
film
Carbon
film
(Carbon
film
‘Carbon
film
Carbon
film
(Carbon
film
(Carbon
film
‘Carbon
film
‘Carbon
film
Carbon
film
‘Carbon
film
arbon
film
‘arbon
film
‘arbon
film
[Carbon
film
[Carbon
film
(Carbon
film
‘Carbon
film
‘arbon
film
‘arbon
film
-arbon
film
arbon
film
arbon
film
arbon
film
‘arbon
film
‘arbon
fil
Carbon
film
arbon
film
‘arbon
film
Carbon
film
(Carbon
film
Carbon
film
Carbon
film
Carbon
film
(Carbon
film
Carbon
film
Carbon
film
\Carbon
film
\Carbon
film
Carbon
film
(Carbon
film
(Carbon
film
(Carbon
film
\Carbon
film
(Carbon
film
Carbon
film
Carbon
film
Carbon
film
(Carbon
film
\Carbon
film
Carbon
film
Carbon
film
Carbon
film
Carbon
film
Carbon
film
RF“PS
1M-K
RF“%PS
1M-K
RF“PS
1M-K
RE%PS
1M-K
|
REAPS
1M-K
RF“%PS
1M-K
RF“PS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RF%PS
1M-K
|
RF“PS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RFPS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RFPS
1M-K
RF%PS
1M-K
RFPS
1M-K
RFPS
1M-K
RFPS
1M-K
|
RE“PS
1M-K
RF“%PS
1M-K
RF%PS
1M-K
RFPS
1M-K
RF&PS
1M-K
RF“PS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RFY%PS
1M-K
RF%PS
1M-K
|
RF%PS
1M-K
|
RF%PS
1M-K
RFPS
1M-K
|
RF%PS
1M-K
RF%PS
1M-K
RF“PS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RFPS
1M-K
RF“PS
1M-K
RF%PS
1M-K
RF“PS
1M-K
RFYPS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RFPS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RF%SP
1M-K
RF%PS
1M-K
RF%PS
1M-K
RF“PS
1M-K
RF%PS
1M-K
RF“%PS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RF“%PS
1M-K
RF%PS
1M-K
RF%PS
1M-K
RE%PS
1M-K
POTENTIOMETERS
FILTER
AMP
UNIT
(W38-002)
Deseiption
PartNo.
CAPACITORS
VR1
[20k
Q2
dual,
High
Level
Control
¢87-027-0
Symbol
|
Description
a
EereNe
St
VR2_
20k
Q2
dual,
Mid.
Level
Control
87-0270
C1
|
Electrolytic
10
|CEMX
10MF
25V
VR3_
[20k
dual,
Low
Level
Controt
c87-027-0
|
C2
|
Electrolytic
10
25V
|CEMX
10MF
25V
—
C3
|
Ceramic
1100p
SOV
|
CCDSL
101K
50
C4
|
Ceramic
100p.
50V
|CCDSL
101K
50
C5
|
Electrolytic
1
50V
|CEMX
IMF
50V
SWITCHES
C6
|
Electrolytic
1
50V
|CEMX
IMF
SOV
.
C7
|
Electrolytic
1
50V
|CEMX
IMF 50V
Symbol
Description
___|_
PartNo.
C8
|
Electrolytic
1
SOV
|CEMX
IMF
50V
$1
|Crossover
Frequency
Selector
|
CQ
|
Electrolytic
1
50V
|CEMX
IMF
50V
|
(Mid-High)
S16-050-0
C10
|
Electrolytic
1
SOV
|CEMX
IMF
50V
|
$2
|Crossover
Frequency
Selector
|
C11
|
Electrolytic
10
25V
|
CEMX
10MF
25V
(Low-Mid)
|
$16-051-0
C12
|
Electrolytic
10
25V
|
CEMX
10MF
25V
|
S3
[Slope
Selector
(High)
$15-036-0
C13
|
Electrolytic
10
25V
|CEMX
10MF
25V
|
$4.
Slope
Selector
(Mid-H)
$15-036-0
|
C14
|
Electrolytic
10
25V
|CEMX
10MF
25V
S5
[Slope
Selector
(Mid-L)
$15-036-0
C15
|
Electrolytic
10
25V
|
CEMX
10MF
25V
S6
|Slope
Selector
(Low)
$15-036-0
C16
Electrolytic
10
25V
|CEMX
10MF
25V
57
power
SiGiten
|
511-0160
C17
|
Electrolytic
10
25v
|CEMX
10MF
25V
Line
Voltage
Selector
$11-018-0
£18.
|
Elacrbiyee:
10
25M
CEMX
J0MF:25V;
C19
|
Electrolytic
10
25V
|
CEMX
10MF
25V
|
€20
|
Electrolytic
10
25V
|CEMX
10MF
25V
|
C21
|
Electrolytic
10
25V
|
CEMX
10MF
25V
|
€22
|
Electrolytic
10
25V
|
CEMX
10MF
25V
MISCELLANEOUS
23
|
Mylar
0.01
50V
|
COMA
103K
50
Symbol
~
Description
|
Part
No.
C24
|
Electrolytic
220
35v
|
CETG
220MF
36V
—
|
C25
|
Electrolytic
100
36v
|
CETG
100MF
35V/
Filter
Amp
Unit
W38-002-0
C26
|
Mylar
0.01
50V
|
COMA
103K
50
Front
Panel
M21-381-0
C27
|
Electrolytic
220
35V_|CETG
220MF
35Vv
Metal
Cover
M33-112-0
Knob
for
Power
Switch,
Crossover
|
A12-120-A
Freq.
Selector
(Low-Mid)
and
(Mid-High)
Knob
for
Slope
Selector
A12-144-D
(High,
Mid-H,
Mid-L
and
Low)
[Knob
for
High
Level
(R),
A12-150-0
Mid
Level
(R),
|
Low
Level
(Rj
Konb
for
High
Level
(L),
A12-151-0
Mid
Level
(L),
Low
Level
(L)
Lens
for
Pilot
lamp
A62-045-0
|
6p
Input
Terminal
|
K22.013-¢
2p
Input
Terminal
|
K21-009-¢
1p
Input
Terminal
|
k21-005-¢
|
Power
Transformer
|
752-1360
0
|
AC
Outlet
Socket
K82-011-0
|
Pilot
Lamp
Socket
K42-003-0
Fuse
Holder
K91-007-0
Pilot
Lamp
£22-006-0
Fuse
0.3A
for
Power
£21-030-0
Fuse
0.3
21-032-.0
Fuse
0.54,
£21-019-0
Foot
M61-017-0
15
__
ee
es
(IIONCET
RESISTORS
Symbol]
Description
Part
No.
R1
|
Carbon
film
180K
|
RFUPS
180K-K
R2_
|
Carbon
film
180K
RF%PS
180K-K
R3_
|
Carbon
film
330K
RFY%PS
330K-K
R4
|
Carbon
film
330K
RF%PS
330K-K
R5_
|
Carbon
film
3.3K
RFYPS
3R3K-K
R6
|
Carbon
film
3.3K
RFYPS
3R3K-K
R7_
|
Carbon
film
6.8K
RFY%PS
6REK-K
|
RB
|
Carbon
film
6.8K
RF%PS
6REK-K
|
RQ
|
Carbon
film
220K
RF%PS
220K-K
|
R10
|
Carbon
film
220K
RF%PS
220K-K
|
R11
|
Carbon
film
330K
RF%PS
330K-K
R12
|
Carbon
film
330K
RF%PS
330K-K
R13
|
Carbon
film
3.3K
RF%PS
3R3K-K
R14
|
Carbon
film
3.3K
RF%PS
3R3K-K
R15
|
Carbon
film
6.8K
RF%PS
6REK-K
R16
|
Carbon
film
6.8K
RF%PS
GR8K-K
R17
|
Carbon
film
270K
RF%PS
270K-K
R18
|
Carbon
film
270K
RF%PS
270K-K
R19
|
Carbon
film
270K
RF%PS
270K-K
R20
|
Carbon
film
270K
|
RE%PS
270K-K
R21
|
Carbon
film
3.3K
RF%PS
3R3K-K
R22
|
Cargon
film
3.3K
|
RFPS
3R3K-K
R23
|
Carbon
film
6.8K
|
RF%PS
6REK-K
R24
|
Carbon
film
6.8K
RF%PS
6REK-K
R25
|
Carbon
film
100K
RF%PS
100K-K
R26
|
Carbon
film
100K
RF%PS
100K-K
R27
|
Carbon
film
1.5M
RF%PS
1R5M-K
R28
|
Carbon
film
1.5M
RFPS
1R5M-K
R29
|
Carbon
film
3.3K
RFPS
3R3K-K
R30
|
Carbon
film
3.3K
RF%PS
3R3K-K
R31
|
Carbon
film
10K
RF%PS
10K-K
R32
|
Carbon
film
10K
RFPS
10K-K
R33
|
Carbon
film
1.5M
RF%PS
1R5M-K
R34
|
Carbon
film
1.5M
RFPS
1R5M-K
R365
|
Carbon
film
3.3K
RFPS
3R3K-K
R36
|
Carbon
film
3.3K
RF%PS
3R3K-K
R37
|
Carbon
film
6.8K
RF%PS
6REK-K
R38
|
Carbon
film
6.8K
RF%PS
6REK-K
R39
|
Carbon
film
100K
RF%PS
100K-K
R40
|
Carbon
film
100K
RF%PS
100K-K
|
R41
|
Carbon
film
270K
RF%PS
270K-K
R42
|
Carbon
film
270K
RF%PS
270K-K
R43
|
Carbon
film
330K
RF%PS
330K-K
R44
|
Carbon
film
330K
RFY%PS
330K-K
R45
|
Carbon
film
3.3K
RF%PS
3R3K-K
R46
|
Carbon
film
3.3K
RF%PS
3R3K-K
R47
|
Carbon
film
6.8K
RF%PS
6RBK-K
R48
|
Carbon
film
6.8K
RFPS
OREK-K
RaQ
|
Carbon
film
270K
RFPS
270K-K
|
R50
|
Carbon
film
270K
RF%PS
270K-K
|
R51
|
Carbon
film
330K
RFPS
330K-K
R52
|
Carbon
film
330K
RF%PS
330K-K
R53
|
Carbon
film
3.3K
RFPS
3R3K-K
R54
|
Carbon
film
3.3K
RF%PS
3R3K-K
R56
|
Carbon
film
6.8K
REXPS
GREK-K
|
R56
|
Carbon
film
6.8K
RF%PS
GRBK-K
|
R57
|
Carbon
film
100K
RF%PS
100K-K
R58
|
Carbon
film
100K
RF%PS
100K-K
R59
|
Carbon
film
1.5M
RF%PS
1R5M-K
R60
|
Carbon
film
1.5M
RF%PS
1R5M-K
R61
|
Carbon
film
3.3K
RFYPS
3R3K-K
R62
|
Carbon
film
3.3K
RF%PS
3R3K-K
R63
R64
R65
R66
R67
R68
R69
R70
R71
R72
R73
R74
R75
R76
R77
R78
R79
R80
R81
R82
R83
Carbon
fil
15K
Carbon
film
15K
|
Carbon
film
1.5M
|
Carbon
film
1.5M
Carbon
film
3.3K
Carbon
film
3.3K
|
Carbon
film
6.8K
lm
6.8K
100K
|
Carbon
film
100K
|
Carbon
film
33K
|
Carbon
film
33K
Carbon
film
1.8K
Carbon
film
1M
Carbon
film
100K
Carbon
film
180
Carbon
film
4.7K
Carbon
film
100K
Carbon
film
100
Carbon
film
82K
Carbon
film
4.7K
|
RF%PS
15K-K
~W
|
RF&%PS
15K-K
RF%PS
1R5M-
RF%PS
1R5M-
RF%PS
3R3K-K|
RF%PS
3R3K-K)
RF%PS
6R8K-K'
RF%PS
6R8K-K
RF%PS
100K-K
RF%PS
100K-K
RF%PS
33K-K
RF%PS
33K-K
RF%PS
1R8K-K
RF%PS
1M-K
PFY%PS
100K-K
RFPS
180-K
RF%PS
4R7K-K
RF%PS
100K-K
RFPS
100-K
RF%PS
82K-K
RF%PS
4R7K-K
|
DIODES
AND
TRANSISTORS
Symbol
Description
Part
No.
D1
D2
ai
a2
a3
a4
5
6
Q7
os
a9
a10
Qi
Q12
Q13
ai4
ais
O16
|
Q17
a8
aig
SE-05-01
Diode
SE-05-01
Diode
|
2SC458LG
C
Transistor
2SC458LG
C
Transistor
2SC458LG
C
Transistor
2SC458LG
C
Transistor
|
2SC458LG
C
Transistor
2SC458LG
C
Transistor
2SC458LG
C
Transistor
|
2SC458LG
C
Transistor
|
2SC458LG
C
Transistor
2SC458LG
C
Transistor
2SC458LG
C
Transistor
|
2SC458LG
C
Transistor
|
2SC458LG
C
Transistor
2SC458LG
C
Transistor
2SC458LG
C
Transistor
2SC458LG
C
Transistor
2SC458LG
C
Transistor
2SC458LG
C
Transistor
2SC458LG
C
Transistor
28C373
Transistor
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