UBIQUITI LBE-5AC-23 ANTENNA DRIVER DETAILS:
|File Size:||21.2 MB|
|Supported systems:||Windows Vista, Windows Vista 64-bit, Windows XP 64-bit, Mac OS X, Mac OS X 10.4, Mac OS X 10.5|
|Price:||Free* (*Free Registration Required)|
UBIQUITI LBE-5AC-23 ANTENNA DRIVER
Spectrum Analyzer by Ubiquiti Networks signatures and plan your networks to minimize noise interference.
Constantly monitors environmental noise Collects energy data points in real-time spectral views Helps optimize channel selection, network design, and wireless performance airView runs in the background without disabling the wireless link, so there is no disruption to the network. In airView, there are three spectral views, each of Ubiquiti LBE-5AC-23 Antenna represents different data.
Waterfall Aggregate energy collected for each frequency Waveform Aggregate energy collected Ambient Noise Level Background noise energy shown as a function of frequency Available with a firmware upgrade to airOS v7. Waterfall Chart This time-based graph shows the aggregate energy collected since the start of an AirView session, over time for each frequency. The power of the energy in dBm is shown across the frequency span and one row is inserted in this graph Ubiquiti LBE-5AC-23 Antenna few seconds.
It is important to note that the color of the energy designates its amplitude. The darker colors Blues and darker shades mean very low to low energy levels at that Ubiquiti LBE-5AC-23 Antenna bin, whereas increasingly brighter colors ie: Green, Yellow, Orange, and finally Red designate increasingly higher energy levels at the specific frequency bin.
Ubiquiti airMAX LiteBeam AC CPE Network Bridge 23dBi
The Waterfall View's legend top-right corner provides a numerical guide associating the various colors to power levels dBm. The low end of that legend left is always adjusted with the calculated noise floor, and the high end right is Ubiquiti LBE-5AC-23 Antenna to the highest detected power level since the start of the session. Channel Usage Chart This graph is ideal for determining the best channel to setup a WiFi network for optimal performance.
In the graph, each 2. This percentage is calculated by analyzing both the popularity and the strength of RF energy in that channel since the start of a AirView session. An installer could use this view to optimize a network installation by avoiding highly used channels and setting up new AP's on channels showing the least usage. Waveform Chart This graph shows the aggregate energy collected since the start of an AirView Session. The power of the energy in dBm is shown across the frequency span. Dish Reflector Design - Ubiquiti's InnerFeed technology Ubiquiti LBE-5AC-23 Antenna the Ubiquiti LBE-5AC-23 Antenna into the feed-horn of an antenna, so there is no need for a cable.
Ubiquiti LiteBeam ac
This improves performance because it eliminates cable losses. Providing increased performance from its faster processor and innovative mechanical design at a low cost, the LiteBeam Ubiquiti LBE-5AC-23 Antenna extremely versatile and cost-effective to deploy. This 'time slot' method eliminates hidden node collisions and maximises airtime efficiency.
It provides significant performance improvements in latency, throughput and scalability compared to all other outdoor systems in its class. Scalability - High capacity and scalability. Long Distance - Capable of high-speed, carrier-class links Specifications:with cost-effective value.
The InnerFeed® technology (models. LBE-M and LBE-5AC) integrates the entire radio system into the antenna feed, and our. Model: LBE-5AC Networks.
Ubiquiti airMAX LiteBeam AC CPE Network Bridge 23dBi LBE-5AC-23
For more details, visit . Networking Interface.
(1) 10// Ethernet Port. Antenna Gain. 23 dBi.