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B band UHF receiver circuit
The reception signal from the antenna passes through the filter circuit and enters the RF amplifier (Q172). The signal amplified by the
RF amplifier (Q172) enters the distribution circuit for signal distribution with the A-band. The distributed signal is amplified by the
second RF amplifier (Q192), passes through the band-pass filter, and enters the mixer (IC283). The signal is converted to a first IF of
58.050 MHz after the signal undergoes upper heterodyne conversion by the first local oscillation frequency. Then the signal is input
into IF IC (IC284) through the MCF (XF282). The signal undergoes lower heterodyne conversion in the IF IC (IC284) by the second
local oscillation frequency (57.600 MHz) tripled from the reference frequency (19.200 MHz). Then the signal is converted to a second
IF of 450 kHz and detected to generate an audio signal.
While the transceiver is in AM/SSB/CW mode, the signal is converted to a third IF of 10.8 kHz after the signal undergoes upper
heterodyne conversion by the 3rd local oscillation frequency (460.8 kHz). Then the signal is input into the CODEC IC (IC707).
UHF accompanying circuit
Tuning voltage output from the D/A converter (IC671) under the control of the main MPU (IC702) is applied to each band-pass filter
through a discrete variable-capacitance diode so that the respective band-pass filters will be tuned to target frequencies.
ANT
DUPLEXER
LPF
HPF
2.1.3.3
HF receiver circuit
HF receiver circuit
The reception signal from the antenna passes through the filter circuit and enters the RF amplifier (Q190). The signal amplified by the
RF amplifier (Q190) enters the mixer (IC283) after the signal is further amplified by the second amplifier (Q191). The signal is
converted to a first IF of 58.050 MHz after the signal undergoes upper heterodyne conversion by the first local oscillation frequency.
Then the signal is applied to the IF IC (IC284) through the MCF (XF282). The signal undergoes lower heterodyne conversion in the
IF IC (IC284) by the second local oscillation frequency (57.600 MHz) tripled from the reference frequency (19.200 MHz). Then the
signal is converted to a second IF of 450 kHz and detected to generate an audio signal.
While the transceiver is in AM/SSB/CW mode, the signal is converted to a third IF of 10.8 kHz after the signal undergoes upper
heterodyne conversion by the 3rd local oscillation frequency (460.8 kHz). Then the signal is input into the CODEC IC (IC707).
st
BAND A 1
IF 57.15M
st
1
MIXER
Q281
+/-7.5kHz
BAND A 410~470M
RF AMP
D193
Q172
RF SW
AUS
BUS
BAND B 310~524M
st
BAND B1
IF 58.05M
Fig.3 UHF receiver circuit
IC281
MCF
IF AMP
nd
BAND A 2
IF 450k
XF281
nd
Q282
2
MIXER
AGC1/2 BPF0/1/2/3
57.6M
BPF(VCAP)
RF AMP
D185
D171/172
Q171
D173
RF SW
OAGCA
OBPFA
AVS
RF AMP
BPF(VCAP)
D179
Q192
D177/178
RF SW
OAGCB
OBPFB/APC
BVS
IFBUF
MCF
nd
BAND B 2
IF 450k
XF282
nd
PGA0
2
MIXER
AGC1/2
IFBPF
+/-7.5kHz
57.6M
IC284
(To MAIN MPU)
DISCRI
LPF
(To CODEC IC)
LIMITER
NOISE RECTIFIER
(To MAIN MPU)
NOISE AMP
rd
BAND B 3
IF 10.8k
rd
3
MIXER
IFBUF(LPF)
IC285
ATT
IC286
(To CODEC IC)
IFOUT
460.8k
(To MAIN MPU)
DISCRI
(To CODEC IC)
LIMITER
NOISE RECTIFIER
(To MAIN MPU)
NOISE AMP
(No.RA044<Rev.001>)1-7
SMA
AFA
SQA
IFB
SMB
AFB
SQB
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