YAESU--VX-7R-Circuit-Description.pdf
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FCC ID: K66VX-7R
Circuit Description
VX-7R Circuit Description
The VX-7R consists of a RF-UNIT, a CNTL-UNIT and an AF-UNIT. The RF-UNIT
contains the receiver front end, PLL IC, power and switching circuits, and the VCO-UNIT
for transmit and receive local signal oscillation. The CNTL-UNIT contains the CPU, and
audio ICs, and the power circuitry for the LCD. The AF-UNIT contains the IF, and audio
ICs.
Receiver Signal Flow
The VX-7R includes five receiver front ends, each optimized for a particular frequency
range and mode combination.
(1) Triplexer
Signals between 0.5 and 540 MHz received at the antenna terminal pass through a first
low-pass filter composed of L3059, L3060, C3176 and C3175.
Received 430-MHz signals, after passing through a low-pass filter to the UHF T/R
switch circuit composed of diode switch D1048 (
RLS135
), D1051 (
1SV307
).
Received 145-MHz signals, after passing through a low-pass filter to the VHF T/R
switch circuit composed of diode switch D1053 (
RLS135
), D1054 (
1SV307
).
Received 50-MHz signals, after passing through a low-pass filter to the 50MHz T/R
switch circuit composed of diode switch D1058 (
RLS135
), D1059 (
1SV307
).
(2) 145-MHz Band and 76-300MHz Reception
Received signals between 140 and 150 MHz pass through the Triplexer circuit, low-pass
filter/high-pass filter circuit, VHF T/R switch circuit and protector diode D1002 (
1SS362
)
before additional filtering by a band-pass filter prior to application to RF amplifier Q1004
(
2SC5555
). The amplified RF signal is pass through the band-pass filter to first mixer
Q1012 (
2SC5555
). Meanwhile, VHF output from the VCO-UNIT is amplified by Q1017
(
2SC5374
) and applied through diode T/R switch D1041 (
DAN222
) to mixer Q1012 as
the first local signal.
The 47.25-MHz intermediate frequency product of the mixer is delivered to the AF-
UNIT.
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Vertex Standard Co., Ltd.
FCC ID: K66VX-7R
Circuit Description
The TUNE voltage from the CPU on the CNTL-UNIT is amplified by DC amplifier
Q3017 (
NJU7007F2
) and applied to varactors D1020 and D1022 (
HVC369B
),
D1019,
D1021, D1023, D1024, D1033 and D1036 (
1SV325
)
in the variable frequency band-pass
filters. By changing the electrostatic capacitance of the varactors, optimum filter
characteristics are provided for each specific operating frequency.
(3) 435-MHz Band and 222-540MHz Reception
Received signals between 430 and 450 MHz pass through the Triplexer circuit, low-pass
filter/high-pass filter circuit, UHF T/R switch circuit and protector diode D1001 (
1SS362
)
before additional filtering by a band-pass filter prior to application to RF amplifier Q1003
(
2SC5555
). The amplified RF signal is pass through the band-pass filter, RF amplifier
Q1006 (
2SC5555
) and band-pass filter to first mixer Q1011 (
2SC5555
). Meanwhile,
UHF output from the VCO-UNIT is amplified by Q1016 (
2SC5374
) and applied through
diode T/R switch D1045 (
HN2D01FU
) to mixer Q1011 as the first local signal.
The 47.25-MHz intermediate frequency product of the mixer is delivered to the AF-
UNIT.
The TUNE voltage from the CPU on the CNTL-UNIT is amplified by DC amplifier
Q3017 and applied to varactors D1005, D1018, D1030 and D1031 (
HVC358B)
in the
variable frequency band-pass filters. By changing the electrostatic capacitance of the
varactors, optimum filter characteristics are provided for each specific operating frequency.
(4) 50-MHz-Band and 30-76 MHz Reception
Received signals between 50 and 54 MHz pass through the Triplexer circuit, low-pass
filter circuit, 50MHz T/R switch circuit and protector diode D1003 (
1SS362
) before
additional filtering by a band-pass filter prior to application to RF amplifier Q1005
(
2SC5555
). The amplified RF signal is pass through the band-pass filter to first mixer
Q1008 (
2SC5555
). Meanwhile, 50MHz output from the VCO-UNIT is amplified by
Q1018 (
2SC5374
) and applied through diode T/R switch D1046 (
HN2D01FU
) to mixer
Q1008 as the first local signal.
The 47.25-MHz intermediate frequency product of the mixer is delivered to the AF-
UNIT.
The TUNE voltage from the CPU on the CNTL-UNIT is amplified by DC amplifier
Q3017 and applied to varactors D1025 and D1026 (
1SV325
)
in the variable frequency
band-pass filters. By changing the electrostatic capacitance of the varactors, optimum filter
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Vertex Standard Co., Ltd.
FCC ID: K66VX-7R
Circuit Description
characteristics are provided for each specific operating frequency.
(5) 0.5 - 30 MHz Reception
Received signals between BC and SW MHz pass through the Triplexer circuit, low-pass
filter circuit, 50MHz T/R switch circuit and protector diode D1003 before additional
filtering by a band-pass filter prior to application to RF amplifier Q1009 (
2SC4915-0
).
The amplified RF signal is pass through the band-pass filter to first mixer Q1013
(
2SC4915-0
). Meanwhile, 50MHz output from the VCO-UNIT is amplified by Q1018 and
applied through diode T/R switch D1046 to mixer Q1013 as the first local signal.
The 47.25-MHz intermediate frequency product of the mixer is delivered to the AF-
UNIT.
The TUNE voltage from the CPU on the CNTL-UNIT is amplified by DC amplifier
Q3017 and applied to varactors D1013 (
HVR100
)
in the variable frequency band-pass
filters. By changing the electrostatic capacitance of the varactors, optimum filter
characteristics are provided for each specific operating frequency.
(6) 540 - 999 MHz Reception
Received signals between 540 and 999 MHz pass through the high-pass filter circuit,
T/R switch D1004 (
1SV271
) to application to RF amplifier Q1002 (
2SC5227
). The
amplified RF signal is pass through the band-pass filter to first mixer Q1010 (
2SC5227
).
Meanwhile, UHF output from the VCO-UNIT is amplified by Q1016 and applied through
diode T/R switch D1045 to mixer Q1010 as the first local signal.
The 47.25-MHz intermediate frequency product of the mixer is delivered to the AF-
UNIT.
The TUNE voltage from the CPU on the CNTL-UNIT is amplified by DC amplifier
Q3017 and applied to varactors D1015 and D1017 (
HVC355B)
in the variable frequency
band-pass filters. By changing the electrostatic capacitance of the varactors, optimum filter
characteristics are provided for each specific operating frequency.
(7) 47.25-MHz First Intermediate Frequency
The 47.25-MHz first intermediate frequency from first mixers is delivered from the RF-
UNIT to the AF-UNIT through jacks J1004 and J2001. On the AF-UNIT, the IF for AM
and FM-narrow signals is passed through
NAR/WIDE
switch D2001 (
DAP222
) and
47.25-MHz monolithic crystal filter (MCF) XF2001 to narrow IF amplifier Q2002
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Vertex Standard Co., Ltd.
FCC ID: K66VX-7R
Circuit Description
(
2SC4915-0
) for input to pin 16 of Narrow IF IC Q2016 (
TA31136FN
) after amplitude
limiting by D2003 (
DA221
).
Meanwhile, a portion of the output of 11.7-MHz crystal X1001 on RF-UNIT is
multiplied fourfold by Q2004 (
2SC4915-0
) and Q2012 (
2SC4154E
) to provide the 46.8-
MHz second local signal, applied to the Narrow IF IC. Within the IC, this signal is mixed
with the 47.25-MHz first intermediate frequency signal to produce the 450KHz second
intermediate frequency.
This second IF is filtered by ceramic filter CF2002 (
ALFYM450F=k
) and amplified by
the limiting amplifier within the Narrow IF IC before quadrate detection by ceramic
discriminator CD2001 (
CDBM450C7
).
Demodulated audio is output from pin 9 of the Narrow IF IC through narrow mute
analog switch Q2029 (
2SJ364
) and squelch gate Q2036 (
2SJ364
) before de-emphasis at
Q2028 (
DTC144EE
).
The resulting audio is amplified by AF amplifier Q2040 (
TDA7233D
) and output
through MIC/EAR jack J2002 to internal speaker SP1001 or an external earphone.
(8) Squelch Control
Signal components in the neighborhood of 15 KHz contained in the discriminator output
pass through an active band-pass filter composed of R2059, R2060, R2062, C2076, C2078
and the operational amplifier between pins 7 and 8 within Narrow IF IC Q2016. They are
then rectified by D2012 and D2013 (
MC2850
) to obtain a DC voltage corresponding to the
level of noise. This voltage is input to pin 49 of CPU Q3035 (
HD6472237TF10
), which
compares the input voltage with a previously set threshold. When the input voltage drops
below the threshold, normally due to the presence of a carrier, turning on squelch gate
Q2036 and allowing any demodulated audio to pass. At the same time, Q3001 and/or
Q3003 and/or Q3004 goes on, causing the BUSY/TX lamp D3033 (
FRGB1312CE-10-
TF
) to light.
Transmitter Signal Flow
(1) 145-MHz-Band Transmit/Receive Switching
Closing PTT switch S2002 on the AF-UNIT pulls the base of Q3008 (
DTA144EE
) low,
causing the collector to go high. This signal is input to pin 33 (PTT) of CPU Q3035,
allowing the CPU to recognize that the PTT switch has been pushed. When the CPU detects
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Vertex Standard Co., Ltd.
FCC ID: K66VX-7R
Circuit Description
closure of the PTT switch, pin 10 (TX/RX) goes high. This control signal is delivered to the
RF-UNIT, where it switches Q1044 (
UMW1
) and Q1043 (
CPH6102
) to produce the TX
control signal that activates Q1046 (
2SA1774
). At the same time, PLL division data is
input to PLL IC Q1019 (
MB15A01PFV1
) from the CPU, to disable the receiver power
saver. Also, switching Q1048 (
DKRC654U
) to disable the receiver circuits. Then causing
the red side of BUSY/TX lamp D3033 to light.
(2) Modulation
Voice signal input from either built-in microphone MC1001 (
EM-140
) on CNTL-UNIT
or external jack J2002 on the AF-UNIT is pre-emphasized by C3012 and R3031, and
processed by microphone amplifier Q3018 (
NJM3403AV
),
IDC
(instantaneous deviation
control) circuit Q1014 to prevent overmodulation, and active low-pass filter Q1014.
During CTCSS operation, the voice signal is mixed with the TONE ENC subaudible
tone signal from pin 43 of the CPU and delivered to the RF-UNIT through jacks J3001 and
J1008. During DTMF operation, the DTMF tones from pin 44 of the CPU are input to the
IDC stage.
(3) 145-MHz-Band Transmission
Modulating audio from the CNTL-UNIT passes through deviation setting D/A converter
Q3012 to VHF MOD of the VCO-UNIT mounted on the RF-UNIT. This signal is applied
to varactor D4005 (
HSC277
) in the tank circuit of VHF VCO Q4004 (
EC3H07B
), which
oscillates at the desired VHF transmitting frequency. The modulated VCO signal is
buffered by amplifier Q4006 (
EC3H07B
) and Q1017 and delivered through VHF T/R
diode switch D1041 to the RF-UNIT. The modulated low-level VHF transmit signal from
the VCO is passed through diode switch D1043 (
DAN222
) to amplifier Q1014 (
2SC5226-
5
). The modulated VHF transmit signal from the VCO is amplified by Q1023 (
2SK3475
)
and RF power amplifier Q1027 (
2SK3476
) up to 0.1, 0.5 or 5 W (depending on the power
source). The RF output passes through TX diode switch D1053. RF output is passed by T/R
switch and low-pass filter to suppress harmonics and spurious products before output to the
antenna at the antenna terminal.
(4) 435-MHz-Band Transmission
Modulating audio from the CNTL-UNIT passes through deviation setting D/A converter
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Vertex Standard Co., Ltd.
Plik z chomika:
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