TK-280
20
Fig. 2
Receiver section
IC12
MIX, DET, IF
SW
Q15
DM
DM
IC4 (2/2)
AF AMP
5
DE-
EMP
MUTE
EXP
HPF
LPF
HPF
BEF
IC13
2
1
VOL
IC8
IC7 (2/2)
AF AMP
41
VC1
VC2
Q310
SSW
INT.
SP
EXT.
SP
2nd local
OSC
X2
AF AF
SW
IC300
AF PA
ANT
SW
L40,42,
43
L403,404,
405,406
BPF
D12,14,
D15,401
Q24
RF
AMP
ANT
IC18
1st MIX
Q12
1st IF
L27,29
BEF
L31,33
BPF
XF1
MCF
1st Local
OSC (PLL)
CF1: Wide,
Semi wide
CF2 : Narrow
1. Overview
This transceiver is VHF/FM portable transceiver designed
to operate in the frequency range of 146 to 174MHz (E, T).
2. Circuit Configuration by Frequency
The receiver is a double-conversion superheterodyne with
a first intermediate frequency (IF) of 44.85MHz and a second
IF of 455kHz. Incoming signals from the antenna are mixed
with the local signal from the PLL to produce the first IF of
44.85MHz.
This is then mixed with the 44.395MHz second local
oscillator output to produce the 455kHz second IF. This is
detected to give the demodulated signal.
The transmit signal frequency is generated by the PLL VCO,
and modulated by the signal from the microphone. It is then
amplified and sent to the antenna.
ANT
TX/RX : 146~174MHz (E,T)
ANT
SW
RF
AMP
PA
AMP
TX
AMP
1st MIX
MCF
44.85MHz
CF
455kHz
FM IF
SYSTEM
AF
AMP
SP
44.395MHz
190.85~218.85MHz (E,T)
PLL
VCO
MIC
AMP
MIC
146~174MHz (
E,T
)
Fig. 1
Frequency configuration
3. Receiver System
3-1. RF unit
An incoming RF signal from the antenna terminal is passed
through the antenna switch (D12, D14, D22 and D401 are off)
and then the bandpass filter (L403,404,405,406). The bandpass
filter is adjusted by a variable capacitor. The input voltage to
the variable capacitor is regulated by the voltage output from
the D/A converter (IC8). The signal is amplified by RF amplifier
(Q24), and passed through the bandpass filter (L31,33) and
band-eliminate filter (L27,29) to remove the spurious signal
again. The resulting signal is applied to the first mixer (IC18),
where it is mixed with the first local oscillator signal output
from the frequency synthesizer to produce the first IF
(44.85MHz). The 1st mixer uses the GaAs IC.
3-2. IF unit
The first IF signal is passed through a crystal filter (XF1) to
remove a adjacent channel signal. The filtered first IF signal is
amplified by the first IF amplifier (Q12) and then applied to the
lF system IC (IC12). The IF system IC provides a second mixer,
second local oscillator, limiting amplifier, quadrature detector
and RSSI (Received Signal Strength Indicator). The second
mixer mixes the first IF signal with the 44.395MHz of second
local oscillator output (crystal unit X2) and produces the second
IF signal of 455kHz.
The second IF signal is passed through the ceramic filter
(CF1; Wide, Semi wide, CF2 ; Narrow) to more remove the
adjacent channel signal. The filtered second IF signal is
amplified by the limiting amplifier and demodulated by the
quadrature detector with ceramic discriminator (CD1). The
demodulated signal is routed to the audio circuit.
3-3. Wide, Semi wide/Narrow changeover circuit
Narrow and Wide, Semi wide settings can be made for each
channel by switching the ceramic filters CF1 (Wide, Semi wide),
CF2 (Narrow).
The WIDE, SEMI WIDE (high level) and NARROW (low
level) data is output from IC19 (microcomputer) pin 99.
When a WIDE, SEMI WIDE (high level) data is received,
Q6 turn off and Q7 turn on. When a NARROW (low level)
data is received, Q6 turn on and Q7 turn off. D5, D7 are
switched to ceramic filters when a high/low level data is
received.
Q9 turns on/off with the Wide, Semi wide/Narrow data and
the IC12 detector output level is changed to maintain a constant
output level during wide or narrow signals.
CIRCUIT DESCRIPTION
