A promising future 5G band, currently used around the world for 4G. Read more...

The premier mid-range global 5G band. Many countries plan to assign at least 300 MHz of spectrum in 3.3 - 3.8 GHz for 5G networks. In the short-run, usage is likely to be dominated by 4G for capacity constrained areas or FWA in rural areas. Read more...

The first mmWave to be deployed for 5G services: 28 GHz has already been assigned in several major economies. Read more...

The premier mid-range global 5G band. Many countries plan to assign at least 300 MHz of spectrum in 3.3 - 3.8 GHz for 5G networks. In the short-run, usage is likely to be dominated by 4G for capacity constrained areas or FWA in rural areas. Read more...

A portion of this band is set to become a key 5G band in the USA, Japan, and possibly beyond. These frequencies are being explored in some countries as an extension of 4G/5G frequency bands from 3.3 – 3.8 GHz, sometimes to be made available on a shared and/or local basis. Read more...

The first mmWave to be deployed for 5G services: 28 GHz has already been assigned in several major economies. Read more...

A 5G-only band that could form an attractive alternative or complement to the C-Band in Asia, Africa, and the former Soviet Union. Its use in the West is limited by military and public safety considerations. Read more...

A potential IMT identification in these bands was rejected at WRC-19, but they may be considered again in some form at WRC-27. Some countries are focussing regulatory efforts for the band on fixed links.  Read more...

A portion of this band is set to become a key 5G band in the USA, Japan, and possibly beyond. These frequencies are being explored in some countries as an extension of 4G/5G frequency bands from 3.3 – 3.8 GHz, sometimes to be made available on a shared and/or local basis. Read more...

Using spectrum above 90 GHz for mobile is in the experimental phase, perhaps for “6G”. There are no prospects for an IMT identification. Read more...