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Frequency Configuration
The receiver utilizes double conversion. The first IF is
49.95MHz and the second IF is 450kHz. The first local oscil-
lator signal is supplied from the PLL circuit.
The PLL circuit in the transmitter generates the necessary
frequencies. Figure 1 shows the frequencies.
ANT
1st
MCF
MIX
49.95MHz
ANT
RF
SW
AMP
RX
1/2
POWER
RF
AMP
AMP
TX
Fig. 1 Frequency configuration
Receiver System
The receiver is double conversion superheterodyne. The
frequency configuration is shown in Figure 1.
■ Front-end RF Amplifier
An incoming signal from the antenna is applied to an RF
amplifier (Q353) after passing through a transmit/receive
switch circuit (D603, D605 are off) and a band pass filter
(L357, L356 and varactor diodes : D353, D354). After the
signal is amplified (Q353), the signal is filtered through a band
pass filter (L354, L355 and varactor diodes: D351, D352) to
eliminate unwanted signals before it is passed to the first
mixer.
The voltage of these diodes are controlled by tracking the
CPU (IC101) center frequency of the band pass filter. (See
Fig. 2)
■ First Mixer
The signal from the RF amplifier is heterodyned with the
first local oscillator signal from the PLL frequency synthesizer
circuit at the first mixer (Q352) to create a 49.95MHz first
intermediate frequency (1st IF) signal. The first IF signal is
then fed through one pair of monolithic crystal filter (MCF :
XF351) to further remove spurious signals.
ANT
D602
L357,356
D603
D353,354
D605
ANT
SW
IC161
D/A
CIRCUIT DESCRIPTION
CF 450kHz
AF
IF SYSTEM
SP
PA
50.4MHz
X3
multiply
TCXO
16.8MHz
MIC
PLL/VCO
MIC
AMP
L354,355
Q353
D351,352
Q352
BPF
RF AMP
BPF
MIX
IC402
TV
1/2 divider
CPU
1st local
OSC (VCO/PLL)
Fig. 2 Receiver system
■ IF Amplifier
The first IF signal is amplified by Q351, and the enters
IC301 (FM processing IC). The signal is heterodyned again
with a second local oscillator signal within IC301 to create a
450kHz second IF signal. The second IF signal is then fed
through a 450kHz ceramic filter (Wide : CF301, Narrow :
CF302) to further eliminate unwanted signals before it is am-
plified and FM detected in IC301.
Item
Nominal center frequency
Pass bandwidth
35dB stop bandwidth
Ripple
Insertion loss
Guaranteed attenMuation
Terminal impedance
Table 1 Crystal filter (L71-0591-05) : XF351
Item
Nominal center frequency
6dB bandwidth
50dB bandwidth
Ripple
Insertion loss
Guaranteed attenuation
Terminal impedance
Table 2 Ceramic filter (L72-0993-05) : CF301
Item
Nominal center frequency
6dB bandwidth
50dB bandwidth
Ripple
Insertion loss
Guaranteed attenuation
Terminal impedance
Table 3 Ceramic filter (L72-0999-05) : CF302
CF301 (Wide)
CF302 (Narrow)
XF351
Q351
MCF
IF AMP
IC301
IF system
X401
Q302
TCXO
X3 multiply
TK-7100H
Rating
49.95MHz
± 5.0kHz or more at 3dB
± 20.0kHz or less
1.0dB or less
5.0dB or less
80dB or more at fo± 1MHz
Spurious : 40dB or more within fo±1MHz
350Ω / 5.5pF
Rating
450kHz
± 6.0kHz or more
± 12.5kHz or less
2.0dB or less
6.0dB or less
35.0dB or more within fo± 100kHz
2.0kΩ
Rating
450kHz
± 4.5kHz or more
± 10.0kHz or less
2.0dB or less
6.0dB or less
60.0dB or more within fo± 100kHz
2.0kΩ
IC161
D/A CONVERTER
W/NO
(EVOL2)
15
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