Smart Buc" Functionality; Data Logging Capability; Optional Internal 10 Mhz Reference; Optional Lnb Support - Comtech EF Data LPOD Hardware Installation And Operation Manual
C-/ku-band outdoor amplifier/block up converter (buc)
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- Installation and operation manual (224 pages) ,
- Installation and operation manual (250 pages)
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LPOD C-/Ku-Band Outdoor Amplifier / Block Up Converter (BUC)
Introduction
A faulted online unit may be disconnected and replaced without affecting the online power
amplifier.
1.3.4
"Smart BUC" Functionality
Comtech EF Data's unique approach to L-Band/RF frequency conversions eliminates DC and 10
MHz from the input coax. This simplifies redundant and multi-carrier operation. Full 13.75 to
14.5 GHz Ku coverage and 5850 to 6725 MHz C band coverage is offered while supporting
industry standard FSK modem/BUC communications, as well as Comtech EF Data proprietary
commands.
Both LPOD models have a self-contained power supply, eliminating the requirement for the
modem to supply the BUC voltage on the center conductor of the RF cable, simplifying multi-
carrier operation and modem spares maintenance.
1.3.5
Data Logging Capability
To greatly enhance system maintainability, the LPOD includes a built-in data logging capability.
By recording critical operational parameters (such as temperature, output power, mute status, etc.)
at time stamped intervals, the user can quickly gather intelligence not only about the unit itself,
but also the unit's operational environment.
1.3.6
Optional Internal 10 MHz Reference
With the optional high stability, oven-controlled crystal oscillator (OCXO) installed, one more
signal is removed from the TX IF cable. This ensures optimum RF performance of the BUC by
eliminating any reference degradation caused by IF combiners, interconnections, or rotary joints.
1.3.7
Optional LNB Support
The LPOD was designed with the evolution of L-band systems in mind. No longer relegated to
low power single carrier installations, L-band IF topologies are now found in larger multi-carrier
installations. A challenge presented by multi-carrier L-band systems is the presence of DC and
reference components on the Tx/Rx L-band interfaces. The LPOD design, by default, eliminates
the DC component from the Tx IF and can eliminate the reference requirement with the optional
internal OCXO. The LNB bias/reference option completes the solution by eliminating DC and
reference signal requirements from the Rx L-band interface.
1–3
Revision 3
MN-LPOD
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