25
TK-690H
(
B
)
TX-VCO
Q203
AMP
SW
DO
APC
TX-RX UNIT X57 A/2
D306
8T
MO
CIRCUIT DESCRIPTION
1. Transmitter Circuit
1-1. Microphone amplifier section (X57 B/2)
The audio input from the microphone is attenuated by
VR501 and passes through the active high-pass filter (pre-
emphasis circuit) in IC505, the compressor circuit in IC504,
the IDC (limiter circuit) in IC505, the summing amplifier cir-
cuit in IC510, the active low-pass filter in IC510, the sum-
ming amplifier circuit in IC513, and the D/A converter in
IC512, and is output from the CN502 to the CN202. Q504 is
used as a microphone mute switch.
Fig. 1
1-2. Modulation section (X57 A/2)
The signal from the MO terminal of the CN202 goes to
D305 in the VCO, and the VCO is directly modulated. The
transmit signal output from the VCO passes through switch
D306, is amplified by Q203, and is output from the CN203 to
the CN1.
Fig. 2
1-4. Final amplifier section (X45)
The signal from the DO terminal of the CN1 is applied to
drive two transistors Q1 and Q5, and the output is divided
into two signals which are amplified by Q6 and Q7. The
signals are mixed and the resulting signal is fed through
transmit/receive switching diode; D2, D3, D4 and D10, low-
pass filter, and CM coupler to the antenna connector.
CM coupler is a coil for detecting traveling and reflected
waves. Traveling waves are detected by D9 and fed through
the APC control to differential amplifiers Q8, which compare
the signal level with the reference voltage of PC tuned.
The output is amplified by DC amplifier Q7 to control APC
DC amplifier Q6. Q7 controls the power supply voltage for
pre-drive amplifier Q203 on the TX-RX unit (X57-560 A/2),
keeping the transmitter output constant. To protect the
transmitter power amplifier stages, there are two protec-
tion circuits which one is against abnormal antenna loading
and the other is against overheating.
Fig. 3
If an abnormal antenna load is connected, the reflected
wave level increases. Reflected waves are detected by D6,
D5 and the output level is fed to the differential amplifier Q8,
leading to the transmitter output power being reduced in the
way already described. If an abnormal high temperature is
detected by the thermistor TH1, DC SW Q2 is made to re-
duce the reference voltage of the PC tuned. This also leads
to the transmitter output power being reduced. Antenna
switching is done by four diodes; D2, D3, D4 and D10 with
8T.
SUM
AMP
SUM
AMP
DAC
LPF
IDC
COMP
HPF
MUTE
SW
MIC
VR501
IC513 IC510
IC510
IC505
IC504
IC505
Q504
PC
MO
IC512
CONTROL UNIT X57 B/2
to TX VCO
Differential
AMP
Q6
Q7
D9
AMP
APC
drive
DC
AMP
AMP
AMP
AMP
LPF
REF
DET
DC
SW
DC
AMP
FWD
DET
ANT
SW
CM coupler
TH1
8T
8T
PC
VR1
D5,6
Q2
Q8
Q1
Q5
Q9
Q10
D2,3,4,10
Q4
+B
B
DO
DB
FINAL UNIT (X45)
2. Receiver Circuit
The incoming received signal from the antenna socket
passes through the low-pass filter, the transmit/receive
switching diodes (D2, D3, D4 and D10), and the second low-
pass filter, then is fed to CN104 in the TX-RX unit.
The signal passes through the band-pass filter in the TX-
RX unit, is amplified by RF amplifier Q101 and Q102, then
passes through the second band-pass filter (BPF). The
tuned varactor BPF (L101, L102, L104 and L105) changes
the cut-off frequency according to the receive frequency.
After the signal has passed through the BPF, it inters RX
first mixer Q110 to Q113. The local signal (received fre-
10.7MHz) from the PLL also enters the first mixer.
The first mixer is a double-balanced type consisting of four
FETs, which converts the receive signal to the 10.7MHz first
IF signal.
The 10.7MHz IF signal passes through NB (noise blanker)
unit A102 and IF amplifier Q103, and enters NB gate Q105
and Q106. The pulse noise in the IF signal is detected by the
NB unit, and removed by the NB gate. The IF signal passes
through the monolithic crystal filter (XF101), IF amplifier
Q301, monolithic crystal filter (XF102), and enters FM IF
system IC (IC101).
The signal is heterodyned again to 455kHz using the sec-
ond local signal generated by the crystal oscillator
(11.155MHz), at the second mixer in IC101. The second IF
signal is filtered by CF101 and CF102 (ceramic filter), ampli-
fied by limiting amplifiers in IC101, and is detected as an FM
signal.
The output AF signal from IC101, then passes through
the control unit's HPF and D/A converter IC. After entering
the AF power amplifier (IC522), the signal is output from the
speaker.
Содержание TK-690B
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