by Toby Youell
A promising future 5G band, currently used around the world for 4G. Read more...
by Toby Youell
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...
by Toby Youell
The first mmWave to be deployed for 5G services: 28 GHz has already been assigned in several major economies. Read more...
by Toby Youell
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...
by Toby Youell
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...
by Toby Youell
The first mmWave to be deployed for 5G services: 28 GHz has already been assigned in several major economies. Read more...
by Toby Youell
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...
by Toby Youell
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...
by Toby Youell
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...
by Toby Youell
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...