01. November 2021 | Planegg

ATXX today introduces the world's first ultra-wideband all-in-one 5G reference antenna with optimized adoption for all 5G bands and frequencies from 600 MHz to 6 GHz with matching reflection attenuation of at least S11 = -10dB (VSWR = 2).

Developed in Bavaria, this antenna covers all 5G frequencies including 3G/4G frequencies and also covers IoT, GPS/GNSS, Bluetooth, Wi-Fi and 5.9 GHz V2X applications. The application is suitable for 5G demo systems and reference setups as well as for tests of multi-antenna methods, "Massive MIMO" (Multiple Input, Multiple Output).


The innovative design features a new modified quasi-fractal antenna structure with optimized ready-band antenna matching. This has been proven to achieve nearly uniform antenna gain and high antenna efficiency over the entire frequency range.

In communications technology, an antenna matching of highest or better VSWR = 2 (corresponds to S11 = -10 dB) is required.  Usually, most broadband antennas are only partially matched or not matched at all, causing problems in the 5G application or leading to unwanted antenna losses. Mismatched antennas reflect the transmitting power back to the transmitter, causing interfering effects or possibly also automatically reducing the transmitting power strongly and thus extremely limiting the system range. This means loss of radio range, lower data rate, higher energy consumption and delays.

The new ATXX wideband antenna avoids all these problems and enables optimal use for 5G systems and many other wireless applications from 600MHz to 6GHz.

The antenna connector with U.FL (Hirose, IPX, Ipex connector), RF connection cable from U.FL (MHF1) to MHF4 is suitable for all 5G modules and reference designs available on the market.

Customized antenna designs or special antennas can be offered on request.  The Atlantik Networxx antenna specialists will be happy to advise you individually.

The 5G antenna from ATXX is now available at Atlantik and can be order in the Atlantik Elektronik Webshop.