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Wi-LAN advanced
wireless Ethernet bridges are the only wireless solution
you’ll need for deploying a high-speed wireless network.
Unlike competitive offerings, Wi-LAN’s AWE 120-24 and AWE
120-58 advanced wireless Ethernet bridges can be used to
provide high-speed point-to-multipoint, point-to-point, and
backhaul connections. You’ll save money on your total network
costs with only one piece of wireless equipment, save time
installing only one system, and save the hassle of dealing
with multiple wireless equipment vendors.
Fast and
Reliable
Wi-LAN’s AWE 120-24 and AWE 120-58 advanced wireless Ethernet
bridges give you the most bandwidth for your investment.
Taking into account list prices and effective data rates of up
to 9 Mbps, the Wi-LAN AWE 120-24 and AWE 120-58 offer the best
price-per-megabit performance available today. And the high
reliability of the Wi-LAN advanced wireless Ethernet bridges
make them ideal for critical applications.
Built with Wi-LAN’s patented Multi-code Direct Sequence Spread
Spectrum (MC-DSSS) technology, the AWE 120-24 and AWE 120-58
are spectrally efficient and more resistant to interference.
Using advanced wireless Ethernet bridges with MC-DSSS presents
constant service over distance through increased data rates
and enhanced reliability.
Effortless Installation
Wi-LAN’s AWE 120-24 and AWE 120-58 advanced wireless Ethernet
bridges are simple to install. After planning your wide area
network, Wi-LAN equipment can be installed and activated in a
matter of hours. Wi-LAN advanced wireless Ethernet bridges are
easily mounted in a variety of settings, are shipped with all
standard accessories, and have a large number of certified
antennas available. As well, Wi-LAN and its partners can
supply services and personnel to aid in the design and
installation if required. And the maintenance requirements of
Wi-LAN advanced wireless Ethernet bridges are minimal,
enabling your company to get its network up and running
faster, and keep it working with less effort.
Solid Security
The Wi-LAN AWE 120-24 and AWE 120-58 advanced wireless
Ethernet bridges feature advanced security to prevent
eavesdropping and hacking, thanks to built-in data scrambling
that “disguises” data when traveling across the wireless
network. By using Wi-LAN’s patented MC-DSSS technology, Wi-LAN
advanced wireless Ethernet bridges provide multiple codes and
additional channels for increased security.
Wi-LAN has added many features that make it virtually
impossible to intercept and decipher transmissions from its
advanced wireless Ethernet bridges, including irregular
transmission patterns and proprietary data formatting. In
addition, customer-specific encryption keys and secret access
password features ensure the security of your data, even from
other Wi-LAN advanced wireless Ethernet bridges.
Due to this security guarantee, Wi-LAN advanced wireless
Ethernet bridges are in use around the world in a variety of
corporate, industrial, educational, and government network
applications.
Superior User Management Features
Wi-LAN’s AWE 120-24 and AWE 120-58 advanced wireless Ethernet
bridges offer user management features that you’ll find
invaluable in your business. Wi-LAN advanced wireless Ethernet
bridges feature upgradeable software. Flash upgrades can be
performed across your network with virtually no downtime. SNMP
and TELNET allow for remote management of the Wi-LAN advanced
wireless Ethernet bridges in your network. You can change your
system configuration, edit the security access control, and
perform diagnostic testing, all with the freedom that comes
from managing your network remotely.
Bandwidth Where You Need It
The Wi-LAN AWE 120-24 and AWE 120-58 advanced wireless
Ethernet bridges have proven high data rates using Time
Division Duplexing (TDD), meaning that the data stream going
either way can use as much bandwidth within that stream as it
requires. Wi-LAN advanced wireless Ethernet bridges are
designed for “bursty” data traffic, in both upload and
download. TDD allows your network to work at its peak
bandwidth performance at all times—putting the bandwidth where
it’s needed.
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