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Icom IC-701 User Manual

Icom IC-701
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gate,
and
AGC
voltage
is
fed
to
the
second
gate
to
increase
the
dynamic
range
of
the
amplifier.
The
signal
is
then
passed
through
a
Schottky
Diode
double
balanced
mixer
composed
of
D11
through
D14
where
it
is
mixed
with
the
local
oscillator
signal
from
the
VCO.
From
the
mixer,
the
resultant
9.0115MHz
signal
passes
through
a
monolythic
filter,
having
a
bandwidth
of
10KHz,
and
to
the
first
gate
of
amplifier,
Q3.
AGC
voltage
from
pin
6
of
J7
is
fed
to
the
second
gate
of
Q3
as
it
is
to
the
gates
of
O15
through
Q20.
6-1-2
NOISE
BLANKER
CIRCUIT
The
noise
blanker
circuit
is
composed
of
O08
through
012.
Noise
amplified
by
Q8-Q10
is
detected
by
Q20
and
O21
and
applied
to
the
base
of
Q12.
Since
the
collector
of
O12
is
connected
to
the
bias
circuit
of
D1
and
D2,
when
012
conducts
because
of
detected
noise,
it
shuts
off
D1
and
D2,
cutting
off
the
noise.
Therefore
only
clean
signals
are
fed
through
J1
to
the
IF
circuit.
6-1-3
PASS
BAND
TUNING
CIRCUIT
A
VXO
circuit
composed
of
Q1, 02,
X1
and
D4
in
the
“A”’
unit.
The
bias
voltage
of
D4
is
changed
by
turning
the
Pass
Band
Tune
control,
located
on
the
front
panel,
which
varies
the
VXO
frequency
(19.7615MHz)
by
+1.5KHz.
Signals
from
Ji
in
the
RF
unit
are
fed
through
J1
in
the
IF
circuit
to
L5,
then
through
FL1,
a
crystal
filter.
FL1’s
center
frequency
is
9.0115MHz
with
a
band
width
of
+1.2KHz.
From
the
filter,
the
signal
is
fed
to
O10,
where
it
is
amplified
and
fed
to
the
balanced
mixer,
IC3,
where
the
9.0115MHz
signal
is
mixed
with
the
19.7615MHz
VXO
signal.
From
the
balanced
mixer,
the
resultant
10.750MHz
signal
is
fed
through
FL2,
a
crystal
filter
having
a
center
frequency
of
10.750MHz
and
a
band
width
of
+1.2KHz.
This
10.750MHz
signal
is
then
again
mixed
with
the
VXO
frequency,
to
result
in
the
original
9.0115MHz
signal
to
be
fed
to
the
IF
amplifier
circuit.
The
diagrams
will
explain
the
operation
of
the
Pass
Band
Tuning
in
more
detail.
9.0115MHz
+1.2KHz
Filter
MHz
FL1
i
19.7615MHz
+1.5KHz
FL2.
With
the
Pass
Band
Tune
control
in
the
center
position,
signals
between
9.0127MHz
and
9.0103MHz
ine)
(9.0115+1.2KHz),
when
mixed
with
the
VXO
center
frequency
(19.7615MHz)
result
in
signals
of
10.7512MHz
to
10.7488MHz
(10.750MHz+1.2KHz),
all
signals
will
pass
through
the
filter.
:
P.B.TUNE
centered
®
Pass
band
of
Output
Signals
Output
Signals
of
FL1
FL2
of
1C4
Output
Signals
j
of
IC3
—j
O
+1
+2
—2
—1
0
+1
+2
—2
—1
0
+1
42
9
0115
(KHz)
10.75
(KHz)
9
0115
(KHz)
Gane
aie
ae
Turning
the
Pass
Band
Tune
control
fully
clockwise,
the
VXO
frequency
will
become
19.7630MHz
(19.7615+1.5
KHz).
When
mixed
with
the
incomming
9.0115MHz
signals,
the
resultant
frequencies
become
10.7503MHz
to
10.7527MHz.
Since
the
upper
frequency
pass
band
limit
of
the
filter
is
10.7512MHz,
not
all
the
signals
will
be
passed
by
the
filter.
Only
the
signals
between
10.7503MHz
and
10.7512MHz,
the
upper
limit,
will
be
passed.
As
you
can
see,
the
pass
band
has
been
narrowed
to
900Hz
to
one
side
of
the
center
frequency
of
the
filter.
Therefore,
all
signals
outside
the
10.7503MHz
to
10.7512MHz
range
will
not
pass
through
the
filter.
B
:
P.B.TUNE
fully
clockwise
Pass
bandof
Output
Signals
of
©
FL2
IC3
Output
Signals
of
1C4
Output
Signals
of
F
|
|
!
i
J
2
|
el
Se?
2)
0)
ie
3
ee}.
DoT
eZ
9.0115)
(KHz)
6
(KHz)
(oe
(KHz)
ae
MHz
MHz
By
turning
the
pass
band
tuning
control
in
the
fully
counter-clockwise
position,
the
VXO
frequency
becomes
19.760MHz.
The
10.750MHz
signals
from
the
mixer
will
be
from
10.7497MHz
to
10.7473MHz.
Again
with
the
10.7512MHz
to
10.7448MHz
pass
band
width
of
the
filter,
not
all
signals
will
be
passed.
Only
those
between
10.7497
MHz
to
10.7488MHz
will
be
passed.
Again,
the
pass
band
has
been
narrowed
to
900Hz
and
offset
to
the
opposite
side
of
the
center
frequency
of
the
crystal
filter.
C
:
P.B.TUNE
fully
counter-clockwise
Output
In
the
diagrams,
““A’’
represents
the
10.750MHz
signals
that
ene
are
the
result
of
mixing
of
the
9.0115MHz
input
signals
with
the
19.7615MHz
VXO
signal
in
1C3.
These
10.750
MHz
signals
are
represented
by
the
solid
line.
The
dotted
line
represents
the
pass
band
of
the
second
crystal
filter,
®
Output
Signal
Pass
band
©
of
1C3
1,
of
FL2
Output
Signals
ee
of
IC4
1
4
ae
:
\
!
1
Po
4
|
\
1
—2—-1
0
+1
+42
—3
-2
—-1
0
+1
+2
—2
—-1
0
+1
+2
Gu
(KHz)
Ge
(KHz)
Gree
(KHz)
MHz
MHz
MHz
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ee
RN
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een
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te

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Icom IC-701 Specifications

General IconGeneral
BrandIcom
ModelIC-701
CategoryTransceiver
LanguageEnglish

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