5G Compatibility
Cell communications has evolved from 2G, 3G, 4G, and now 5G technology. 5G is revolutionizing communications. It operations on 3 radio frequency bands:
- Low-band 5G (Carrier-Aggregated). Delivers 5G performance through carrier aggregation and dynamic spectrum sharing.
- Mid-band 5G (C-Band). Balances the ultra-fast data rate of high frequency bands and the spatial coverage of low-band frequencies.
- High-band 5G (mmWave). Delivers the fastest data transmission but has a limited range.
A repeater needs to accommodate each as they become available
High Uplink and Downlink Power
This is the ability of the repeater to pull signals from cell towers and boost them on the downlink and also on the uplink back to the tower. Higher uplink and downlink power means improved call quality and data throughput.
Carrier-Agnostic Coverage and Reception
A repeater needs to accommodate signals from all carriers and all cellular devices. it needs to provide service to all uses for all individuals.
Low Overload and Shutdown Threshold
Cell signals vary widely from different towers. A repeater needs to be able accommodate te full range of signal strengths and qualities, handling high power signals from some sources and low power signals from others. It needs to handle sudden bursts in signal strenght without overloading and shutting down.
Sophisticated Software with Intelligent Shutdown Management
In cases where signal strength does exceed a specified limit, there are leagal requirements for shutdown. In this case intelligent software can often mange the surge on that channel without shutting down. When it has to shut down, it can do so in a controlled fashion and restart to brink the system back online without intervention.
WilsonPro Repeaters Have It All
At WilsonPro, we design and engineer cellular repeater systems for all kinds of environments and use cases. We’re well acquainted with the technology of cellular networks, and we understand the necessity for businesses to have access to a robust, reliable network regardless of where they are.