Kenwood TS-120S Service Manual

Kenwood TS-120S

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CIRCUIT

DESCRIPTION

RECEIVING

CIRCUIT

The

signal

from

the

antenna

is

fed

to

the

8.83

MHz

IF

trap

circuit.

This

signal

is

stepped

up

about

10

dB

and

im-

pedance-converted

by

a

wide-band

transformer

before

it

is

applied

to

the

bandpass

filter

(BPF).

The

BPF

is

common

to

transmission

and

reception,

eliminates

the

need

for

a

preselector,

and

makes

the

RF

section

compact

in

design.

The

signal

from

the

BPF

is

fed

to

the

dual-gate

MOS

FET

wideband

RF

amplifiers

consisting

of

a

3SK74

(Q1)

and

a

25C1815

(Q2),

where

the

2

MHz

to

35

MHz

signal

is

amplified

about

20

dB.

The

RF

amplifier

output

is

through

a

wide-band

transformer

to

the

input

balanced

transformer

of

the

balanced

mixer

(two

3SK74s,

Q3

and

Q4),

where

it

is

mixed

with

the

VCO

output

from

the

PLL

and

converted

to

the

8.83

MHz

IF.

This

signal

is

applied

to

the

IF

unit,

through

the

ceramic

filters,

NB

gate

circuit

and

the

crystal

filter.

The

NB

circuit

is

controlled

by

the

NB

switch

on

the

front

panel.

The

signal,

passing

through

the

crystal

filter,

is

amplified

about

90

dB

by

the

three-stage

3SK74

MOS

FET

IF

amplifier

(Q1,

Q2,

and

Q3)

and

is

demodulated

into

audio

by

the

four-diode

ring

detector.

From

the

final

IF

stage,

the

signal

also

passes

through

a

buffer

amplifier

and

is

fed

to

the

AGC

circuit

where

it

is

detected

and

amplified.

Receiver

gain

is

controlled

by

this

AGC

voltage

applied

to

the

second

gates

of

the

RF

and

IF

amplifiers,

with

the

time

constant

determined

by

R38

(2.2MQ)

and

C40

(1puF).

Input

levels

of

2

dB

and

34

dB

are

indicated

as

S1

and

S9

on

the

S-meter.

The

AF

signal

is

amplified

by

Q1,

a

2SC2240

(GR),

gain

controlled,

and

further

amplified

by

an

HA1366W

(Q7),

the

power-amplifier

IC,

to

to

drive

the

speaker.

This

signal,

which

is

tran-

sistor-coupled

with

O14,

a

2SC1815(Y),

and

Q15,

a

2SA1015(Y),

is

sampled

for

ANTI-VOX

control,

so

the

VOX

circuit

is

not

tripped

by

the

speaker

output.

This

new

system

is

a

departure

from

the

conventional

transformer-coupled

sampling

systems.

TRANSMITTING

CIRCUIT

The

microphone

signal

is

amplified

by

transistors

Q18,

a

2SC2240(GR),

Q10,

and

Q11,

each

a

2SC1815(Y),

and

is

fed

to

the

four-diode

balanced

modulator

(BM)

circuit.

Microphone

impedance

is

5000

to

5OkQ.

The

8.83

MHz

DSB

signal

from

the

BM

is

amplified

about

10

dB

by

Q12,

a

2SK19

FET,

and

is

fed

to

the

iF

unit

where

the

unwanted

sideband

is

removed

by

the

crystal

filter

to

produce

an

SSB

signal.

The

gate

of

Q12

is

also

controlled

by

the

protection

voltage

which

is

developed

when

the

transmitter

output

looks

into

an

incorrect

load,

continuously

reducing

output

power.

The

SSB

signal

from

the

crystal

filter

is

amplified

about

30

dB

by

the

3SK74

IF

amplifier

(Q1),

and

is

fed

to

the

transmit

3SK74

MOS

FET

balanced

mixer

(Q5

and

Q6),

where

it

is

mixed

with

the

VCO

output

and

con-

verted

to

the

final

transmit

frequency.

Unwanted

spurious

components

are

eliminated

by

the

transmit/receive

BPF

circuit,

and

the

signal

is

wideband-amplified

by

Q7,

Q8

(2SC1815),

and

Q9

(2SC2086).

In

the

final

unit,

the

signal

is

amplified

by

the

2SC2075

driver

(Q1),

and

by

the

2SC2509

push-pull

power

amplifiers

(Q2

and

Q3).

Then

the

signal

is

amplified

by

the

25C2290

push-pull

power

amplifiers

(Q4,

5).

The

signal

then

passes

through

an

RF

filter

and

is

fed

to

the

antenna.

Antenna

output

is

toroid-sampled

to

detect

the

forward

and

reflected

power.

The

forward

power

is

used

for

ALC

and

the

reflected

power

for

protection.

Forward

power

is

fed

to

the

second

gate

of

the

3SK74

transmit/receive

IF

amplifier

(Q1),

with

a

time

constant

determined

by

R4

(1.5

MQ)

and

C25

{0.47

wF).

For

CW

operation,

block

bias

keying

controls

the

base

circuit

of

the

2SA1015

switching

transistor

(Q.10)

in

the

RF

circuit.

Q10

controls

the

first

and

second

gate

voltages

of

the

transmit

mixer

(O5

and

Q6)

and

the

base

voltage

of

the

predriver

(Q9).

Table of Contents

Other manuals for Kenwood TS-120S

Operating Manual33 pages

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Kenwood TS-120S Specifications

General

Brand	Kenwood
Model	TS-120S
Category	Transceiver
Language	English

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