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 Licensed
6-38Ghz Frequencies
100-633mbps Bandwidth
Supports E1, T1, E3, T3, OC-3, STM-1, STM-4, OC-12
Supports Fast and Gigabit Ethernet
Supports 16, 32, 64, 128 and 256 QAM modulations
Point to Point, Ring, Star and Cascaded support
Support for 1+1 redundancy mode
Automatic Transmit Power Control
SNMP element manager
Compliant with ETSI, FCC, ITU-T, ITU-R and IEEE standards and
frequency plans, for operation worldwide
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FibeAir™ product family of broadband wireless
systems supports multiple capacities, frequencies, modulation
schemes and configurations for various network requirements,
using the same hardware and state-of-the-art technology.
Combining spectral efficiency, hardware efficiency,
modularity, flexibility and upgradeability in a single,
compact, and cost-effective 1U system, the FibeAir family is a
breakthrough in the wireless point-to-point market.
This innovative family of products presents an easy method of
“on the fly” wireless network upgrades in accordance with
network expansion requirements. These optimized as-you-grow
capacity capabilities of the FibeAir family are leveraging
operators and service providers capital and operating
expenses.
Frequencies and Modulations - FibeAir family supports the
complete range of frequencies of 6 to 38 GHz and software
configurable modulation schemes of 16, 32, 64, 128 and 256 QAM
with versatile 28-56 MHz bandwidths.
Capacities - FibeAir radios are upgradeable for capacities of
100 to 622 Mbps, using the same 1U IDU, supporting 1+0, 2+0,
4+0 (with optional XPIC, Cross Polarization Interference
Canceller mechanism), 2+0 East-West, 1+1 HSB, and 1+1 HSB with
space or frequency diversity mode. Point-to-point, ring, star,
and cascaded chain topologies are all supported.
Topologies and Configurations - Each indoor unit (IDU) can
host up to two carriers, each delivering 100, 112, 116, 155 or
311 Mbps, optimizing the solution for every network topology
and configuration. The two independent, hot-swappable carriers
can be used for protection, diversity or double capacity.
High spectral efficiency is ensured by choosing the same
frequency for double the capacity, due to the usage of both
carriers for vertical and horizontal polarizations,
implemented by a built-in XPIC mechanism.
East-West configurations for ring and cascaded topologies are
also possible using the same method, whereby one carrier is
directed to the east and the other to the west, reducing
equipment and resource requirements in each node, which, in
turn, increases network efficiency.
FibeAir can seamlessly integrate into any SDH/SONET, IP and
ATM network, while supporting a wide variety of IP + TDM
interfaces, including nxE1/T1, nxE3/DS3, nxSTM-1/OC-3,
STM-4/OC-12, nxFE, and GigE. This enables network designers to
meet growing market needs, including integration of current
and next generation technologies, using the same radio
equipment.
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