Tag: Ubiquiti LTU Rocket
Ubiquiti LTU Rocket
Showing the single result
-
Read moreUbiquiti LTU Rocket
Ubiquiti introduces the LTU Rocket®, the first Point-to-Multi-Point (PtMP)
BaseStation radio in the LTU™ product family. Operating in the 5 GHz
frequency band, the LTU Rocket is a spectrally efficient, noise-resilient
PtMP AP specifically designed for wireless ISPs (WISPs).Primary features of the LTU Rocket include:
600+ Mbps PtMP performance1
Up to 64 client connections per AP2
2+ Million pps
Proprietary RF filtering1 1+ Gbps with future firmware upgrade.
2 255 client connections with future firmware upgrade
Superior Performance
LTU is a new, proprietary technology with custom silicon and radio design
that break through the limitations of 802.11 Wi-Fi technology. This enables
LTU to deliver far superior performance over previous airMAX products that
are based on 802.11 Wi-Fi.The LTU Rocket is designed for WISPs from the
ground floor up. Its core communications processing engine enables low
latency, long-range capability, DFS flexibility, higher constellations,
better power output, and improved receive sensitivity.Seamless Compatibility
The LTU Rocket is designed to be paired with a variety of Ubiquiti antennas
to suit the needs of each installation. The radio includes a mounting bracket
that allows it to be used with a 5 GHz airMAX® Sector antenna or airMAX Omni
antenna for a complete 5 GHz PtMP BaseStation. You can even pair three LTU
Rocket radios with the airPrism® 5 GHz 3×30° HD Sector Antenna for
co-location deployments. The LTU Rocket also works with any CPE device in the
LTU family, such as the LTU-Pro.Deployment Example:
Channel Width Flexibility
Channel width flexibility allows independent TX and RX channel frequency
configurations anywhere within the radio band to avoid local interference.
Channel width options include:10 MHz
20 MHz
30 MHz
40 MHz
50 MHz
Up to 100 MHz** Available with future firmware upgrade
Auto Power Adjustments
By default, the Auto Output Power* option allows the LTU Rocket to set the
output power (EIRP) to the appropriate level.Frequency Split
The LTU Rocket can use different frequencies for TX and RX to avoid
interference.Signal Control
The LTU Rocket’s target TX output power controls each station’s TX output
power. A PtMP network can manage signal levels to enhance network stability
and achieve optimal wireless performance with the highest possible
modulation.Convenient Configuration
To manage the LTU Rocket, you have two options: the LTU Configuration
Interface and Ubiquiti Network Management System (UNMS™). Either option lets
you manually configure the LTU Rocket. The LTU Rocket can also be used to
automatically configure the stations. On each station, use the Find My AP
feature to scan for APs using the same channel bandwidth, select the
appropriate LTU Rocket, and then use it to configure the station.Integrated GPS
Built-in GPS improves synchronization and allows map and Fresnel views on
the Dashboard.LTU Configuration Interface
PtMP Dashboard
The Dashboard offers map and Fresnel views* so you can visualize the
network. The map view shows your PtMP links overlaid on a geographic map,
while the Fresnel view shows the link calculated for your selected CPE,
including line of sight, first Fresnel zone, and 60% clearance zone.
* Available for models equipped with GPS.New graphs provide instant status updates and help you to detect
connectivity issues and their effects on PtMP performance:
The airtime distribution bar graph displays in real time how much airtime
each CPE is using. Click any point to view the airtime and link score for a
specific CPE.The AP RF environment bar graph shows ambient RF noise levels across the
frequency spectrum.
The combined remote RF environment bar graph also shows ambient RF noise
levels but for the combined environment of all of the remote CPEs.The local and remote RX rate histograms show the receive modulation rates
of the various CPEs.Real-Time Spectral Analysis
airView® spectral analysis runs on a dedicated and independent receiver,
which has excellent EVM (Error Vector Magnitude) performance.
The receiver can also perform other tasks, such as a search for channel
occupancy, DFS detection, and automatic channel/frequency assignment.
Calibration (signal level measurement accuracy) and resolution bandwidth
options are enhanced. Spectral zoom (user-defined scan limits) is also
available.
