Motorola APX 3000 Detailed Service Manual page 34
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Also See for APX 3000:
- Basic service manual (144 pages) ,
- User manual (104 pages) ,
- Manual (59 pages)
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3-8
3.1.2.1 UHF1 Front-End
From the 15 dB Step Attenuator (U2602), a UHF signal is routed to the first pre-selector filter
followed by a Low Noise Amplifier (LNA) and a second pre-selector filter. Both filters are discrete and
tunable designs and are used to band limit the incoming energy and suppress known spurious
responses such as Image and the ½ IF spur. The LNA active device is an NPN transistor (U1932)
with active bias provided by transistor pair (Q1922).
The output of the second pre-selector filter is applied to the RF port of the Mixer IC (U507) via a
balun transformer (T506). The Mixer IC is driven by a Local Oscillator (LO) signal at the LO port to
down-convert the RF signal to a 109.65 MHz intermediate frequency (IF). The down converted IF
signal is passed through a crystal filter (FL502) which drives the input of the Abacus 3 Analog to
Digital Converter IC (AD9864) (U601).
3.1.2.2 UHF2 Front-End
From the 15 dB Step Attenuator, a UHF2 signal is routed to the first pre-selector filter followed by an
LNA and a second pre-selector filter. Both filters are discrete and tunable designs and are used to
band limit the incoming energy and suppress known spurious responses such as Image and the ½ IF
spur. The output of the second pre-selector filter is applied to the RF port of the Mixer IC. The Mixer
IC is also excited by a Local Oscillator (LO) signal at the LO port to down-convert the RF signal to a
109.65 MHz intermediate frequency (IF). The down converted IF signal is passed through a crystal
filter which drives the input of the Abacus 3 Analog to Digital Converter IC (AD9864).
3.1.2.3 VHF Front-End
From the 15 dB Step Attenuator (U2702), a VHF signal is routed to the first pre-selector filter
followed by a Low Noise Amplifier (LNA) and a second pre-selector filter. Both filters are discrete
designs and are used to band limit the incoming energy and suppress known spurious responses
such as Image and the ½ IF spur. The LNA active device is an NPN transistor (U304) with active bias
provided by transistor pair (Q303). The output of the second pre-selector filter is applied to the RF
port of the Mixer IC (U507) via a balun transformer (T506). The Mixer IC is driven by a Local
Oscillator (LO) signal at the LO port to down-convert the RF signal to a 109.65 MHz intermediate
frequency (IF). The down converted IF signal is passed through a crystal filter (FL502) which drives
the input of the Abacus 3 Analog to Digital Converter IC (AD9864) (U601).
3.1.2.4 700/800 MHz Front-End
From the 15 dB Step Attenuator (U2302), a 700 MHz or 800 MHz band signal is routed to an SPST
band select switch (U402) which selects the 700 or the 800 band signal and routes it to the
appropriate first pre-selector filter (FL401). A second band select switch (U404) selects the output of
the appropriate filter and applies it to an LNA followed by a similar pre-selector filter/ band-select
switch circuit. The signal is then routed to a second LNA (U407) whose output is applied to a discrete
image filter. Both preselector filters are Surface Acoustic Wave designs used to band limit the
received energy and suppress known spurious responses such as Image and the ½ IF spur.
The output of the discrete image filter is applied to the RF port of the Mixer IC (U507) via a balun
transformer (T506). The Mixer IC is driven by a Local Oscillator (LO) signal at the LO port to down-
convert the RF signal to a 109.65 MHz intermediate frequency (IF). The down converted IF signal is
passed through a crystal filter (FL502) which drives the input of the Abacus 3 Analog to Digital
Converter IC (AD9864)(U601).
Theory of Operation: Main Board
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