Icom IC-701

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the

receiving

mode

using

the

transverter,

Volts

applied

through

470

ohm

resistor

J4,

superimposed

the

incomming

signal

from

the

transverter.

Then

D18,

D19,

and

D40

are

turned

ON,

and

D28

D33

the

amplifier

circuit

for

each

band

are

turned

OFF

Volts

from

J4,

and

D41

turned

OFF

Volts

from

J1.

Thus

the

incomming

signal

from

the

tran-

sverter

fed

the

mixer

circuit

composed

D11

D14,

through

J4,

D18,

D19,

and

D40.

the

transmitting

mode,

grounded

for

DC,

then

D16,

Di7

and

one

D28

D33

are

turned

and

D40

turned

and

D41

and

are

turned

OFF

Volts

from

J1.

Thus

T/R

relay

RL1

turns

the

transmit

side

the

mixed

SSB

signal

from

the

transmit

mixer

circuit

fed

the

amplifier

circuit,

and

the

amplified

signal

sent

through

D16

and

D17.

The

output

level

about

200mV

across

ohm

load.

6-2-7

EXCITER

CIRCUIT

The

output

from

the

unit

applied

the

“B’

unit

and

amplified

class

about

500mV.

and

are

negative

feedback

circuits

for

obtaining

the

wide

band

characteristics

from

1.8

30MHz.

This

signal

amplified

class

push

pull

about

Watts

and

Q3.

The

junction

voltage

and

amplified

and

applied

the

bases

and

Q3,

from

the

emitter

Q9,

for

the

bias

voltage.

and

are

connected

the

cases

and

respectively,

and

compensate

the

bias

voltage

the

temperature

and

Q3.

L8,

L9,

R10,

and

R11

are

negative

feedback

components

for

obtaining

wide

fre-

quency

range.

6-2-8

FINAL

POWER

AMPLIFIER

CIRCUIT

The

Watt

signal

from

the

exciter

stage

amplified

class

push-pull

the

final

amplifier

stage

transistors,

and

the

unit

level

about

100

Watts.

Bias

voltage

treated

D1,

and

Q3,

the

same

D2,

and

the

“’B”

unit,

and

fed

the

bases

and

Q2.

L4,

R7,

R10,

C3,

and

are

negative

feedback

circuits.

6-2-9

ANTENNA

SWITCHING

CIRCUIT

The

Antenna

switching

circuit

composed

D24

D26,

and

located

the

“B”

unit.

when

the

voltage

for

transmit

(+9V)

applied

it’s

base

through

R14

during

transmit.

Accordingly,

turned

ON,

which

turns

D24

which

passes

the

RF.

Q17

OFF

since

it’s

emitter

voltage

and

D25

and

D26

are

cut

OFF.

The

signal

from

the

unit

conducted

the

filter

section

through

D24.

this

case,

the

high

frequency

voltage

rectified

D25

and

D26

and

this

voltage,

about

80V,

fed

the

cathode

D25.

This

reverse

biases

D25

and

D26

and

turns

them

OFF,

output

signals

not

feed

into

the

receive

section.

the

receive

mode,

the

base

goes

OV,

and

are

turned

OFF,

and

—9V

applied

D24

through

R19

and

R108,

thus

D24

turned

OFF

completely.

Also

+9V

applied

D25

and

D26,

through

Q17

and

R70,

D25

and

D26

are

turned

ON,

thus

incoming

signals

are

fed

the

receiving

section.

6-2-10

LOW

PASS

FILTER

CIRCUIT

The

output,

which

has

passed

through

the

antenna

switching

circuit,

fed

through

the

low

pass

filter

the

filter

unit,

which

serves

attenuate

harmonics

about

40dB

order

get

clean

transmit

output.

The

low

pass

filter

set

for

each

band,

and

switched

the

rotary

relay

switch.

The

relay

switch

driven

Q8.

The

voltage

set

the

band

switching

circuit

the

front

panel

applied

one

O1’s

bases

through

R8,

while

the

voltage

set

according

the

contact

the

rotary

relay

applied

the

other

base

through

R12.

there

isa

potential

difference

between

both

bases

Q1,

and

amplify

the

current,

and

applies

the

bias

voltage

Q5’s

base.

Asa

result,

the

multivibrator

composed

and

Q6-

operate

and

the

rotary

relay

driven

and

O8.

The

relay

continues

operate

until

the

voltage

both

bases

are

the

same.

that

time,

Q1's

collectors

are

equal,

O2,

O3,

and

are

all

OFF.

Therefore

and

are

OFF

and

the

relay

stops.

6-2-11

ALC

CIRCUIT

the

ALC

circuit

SWR

pick

coil,

and

are

the

detection

diodes.

The

voltage

traveling

wave

detected

negative

voltage,

and

reflected

wave

detected

negative

voltage

D4.

They

pass

through

the

SWR

switch

(forward-reverse

switch-

ing)

and

operate

the

meter

the

front

panel.

the

ALC

detection

diode.

The

bias

voltage

determined

R24

the

‘’B”

unit

applied

the

cathode

through

the

ALC

circuit.

voltage

applied

the

anode

above

this

bias

voltage,

negative

ALC

voltage

detected

and

fed

the

base

Q10

the

“’B”

unit,

through

and

R3.

The

ALC

output

voltage

amplified

Q10,

Q11,

Q12,

and

Q13

the

“B”

unit

and

then

applied

the

gate

O17

the

“A”

unit

and

controls

the

driving

power

the

stage.

the

antenna

connected

the

transmitter

inferior

SWR,

the

detected

voltage

the

reflected

wave

applied

the

ALC

output

circuit

Q10

the

‘B’”’

unit

through

and

R1.

Therefore,

the

ALC

output

negative

voltage

becomes

extremely

high

and

the

driving

power

the

final

stage

becomes

low

and

protects

the

transistors.

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