This model is directional and must be aimed at the cell tower to be effective
The XPOL-2-5G-US is Poynting’s third generation “V3” of this very popular Cross Polarised (XPOL), cellular band, 2X2 MIMO antenna. The antenna enclosure effectively looks the same as the second generation “V2” but has been completely redesigned on the inside. We have used advanced metamaterial technology, making use of Artificial Magnetic Conductors (AMC) and new registered/patent pending radiator configuration, which is proving to yield exceptional improvements in bandwidth and gain. Radiation patterns of this antenna are exceptionally well controlled, further adding to the performance of the antenna.
The XPOL-2-5G-US antenna includes the 617 to 894 MHz band and the newer 3400 - 3800 MHz bands, which were not previously covered by our V2 and is suitable for 2G, 3G, 4G & 5G. This antenna performs exceptionally well in the following frequency bands: 617 – 894 MHz, 1710 – 2170 MHz, 2300 – 2700 MHz & 3400 – 3800 MHz. In addition to the new bands, the gain in the 1700 MHz and 2.7 GHz is around 3 dB higher than the “V2” over the same frequency bands! Our “V2” antenna already outperformed most competitors over these bands, so this substantial improvement in gain shows the benefits of the new advanced materials and novel radiator design.
So, if it was a car, we installed an entirely new technology engine producing twice the power under the bonnet – it may look the same, but just wait until you turn the ignition on!
The cables attached to this antenna are terminated in SMA/Male for use with most routers/modems - two adapters are required to use with other devices (hotspots, etc).
Features:
- New advanced metamaterial technology
- Exceptional high gain performance over the main 4G/5G bands Includes the 617 to 894 MHz frequency band for US applications Wideband 2x2 MIMO 4G/5G antenna
- Backwards compatible 2G/3G/4G/LTE antenna (5G Ready)
- Two cross polarised antennas in one enclosure for optimal LTE performance
- IP65 weather/dust and vandal resistant enclosure.