User Manual

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Refer to Figure 1 for the
following discussion.
The downlink path of BDA
receives RF signals from
the base station, amplifies
the signal and transmits the
signal, without changing
the frequency, into a
Distributed Antenna
System at the direction of
the mobiles. The signal
travels over a DAS medium
that then dissipates the
signal to the Mobile
subscribers. The uplink
path receives RF signals at
the Mobile side from the
DAS system, then amplifies
it, and transmits the
amplified signal (without
changing the frequency) to
the base station.
This BDA supports Uplink
and Downlink, UHF occupy
distinct dedicated frequency
bands.
The bandwidth of uplink or
downlink pass band factory
tunable to 1-3 MHz. The
minimum pass band
separation is 1 MHz.
The diplexer isolates the
paths and route each signal
to the proper amplifying
channel.
An Automatic Level Control
(ALC) allows for output
power limiting. A variable
step attenuator gives 0 30
dB of attenuation in 2 dB
steps. The use of these
controls is covered in the
“OPERATION” section, later
in this document.
BLOCK DIAGRAM DESCRIPTION
Figure 1: Block Diagram
1. Diplexer Separates/Combines UL and DL pass bands, provides needed
isolation and selectivity to support system gain.
2. Downlink Low noise amplifier and driver. Exhibits low noise figure,up to
45dB gain and high linearity.
3. Downlink Filter High selectivity filter gives additional rejection for
increased isolation.
4. Downlink Power Amplifier with an ALC circuit ,offers up to 42dB gain and
high linearity.
5. Diplexer Separates/Combines UL and DL pass bands, provides needed
isolation and selectivity to support system gain.
6. Uplink Low noise amplifier and driver. Exhibits low noise figure and 45dB
gain high linearity.
7. Uplink Filter High selectivity filter gives additional rejection for increased
isolation.
8. Module that detects oscillations in the system due to insufficient Donor and
Mobile Antenna.
9. Uplink Power Amplifier with an ALC circuit ,offers up to 42dB gain and high
linearity.