RF elements AS-2-17 - Array Sector Antenna 2.4 GHz, 17dBi
The new Array Sector series are superior patch array antennas optimized for excellent performance in sectorial coverage and dense cluster applications. Sector dualpolarization antenna Array Sector 2-14 from the manufacturer RF Elements operating in the
RF elements AS-3-17HV - Array Sector Antenna, 3 GHz, 17dBi
Array Sector 3-17HV dualpolarization antenna from RF Elements operating in the 3 GHz frequency band (3400 - 3800 MHz) with a gain of 17 dBi and a beam angle 118°. An important element built into the antenna structure is the so-cal
RF elements Asymmetrical Horn Antenna Carrier Class, 5GHz, 17dBi, 60°
AH60-CC is a 5GHz sector antenna of the "horn" type of a new generation from the RF elements workshop and is characterized by 60° asymmetric beam angle (25° in the elevation plane), gain 17 dBi and 2x N-Female connectors. This ante
RF elements Asymmetrical Horn Antenna Carrier Class, 5GHz, 16dBi, 90°
AH90-CC is a 5GHz sector antenna of the "horn" type of a new generation from the RF elements workshop and is characterized by 90° asymmetric beam angle (25° in the elevation plane), gain 16 dBi and 2x N-Female connectors. This ante
RF elements TPA-AMU TwistPort adaptor for Mimosa B5x and C5x
TwistPort adapter is designed for wireless AP Mimosa B5x, Mimosa C5x and is used to connect the TwistPort antenna and the unit itself. TwistPort adapters are equipped with a quick locking system from RF elements. Connecting and disconnecting the
RF elements Asymmetrical Horn Antenna 4x4 MIMO, RSMA, 5GHz, 17dBi, 60°
The AH60-4x4-SMA is a 4x4 5GHz sector horn antenna from RF elements, featuring a 60° asymmetrical radiation pattern and a gain of 17dBi. Outstanding noise rejection and precision of the radiation pattern throughout the bandwidth o
RF elements Asymmetrical Horn Antenna 4x4 MIMO, RSMA, 5GHz, 16dBi, 90°
The AH90-4x4-SMA is a 4x4 5GHz sector horn antenna from RF elements, featuring a 90° asymmetrical radiation pattern and a gain of 16dBi. Outstanding noise rejection and precision of the radiation pattern throughout the bandwidth o