More and more service providers around the world are now planning for 5G.There is nothing wrong with that considering it is now replacing the 4G online charging system (OCS) and its separate online charging system, with a new 5G converged charging system (CCS). In a nutshell, the CCS includes a 5G Charging Function (CHF).
But before you rush into making the switch, it pays off to acquaint yourself with the notable frequency bands at the core of 5G mobile networks. Fortunately, that is precisely what this quick guide will help you uncover today. If you have done your homework, you may already know that there are three frequency bands at the core of 5G networks.
First in line is the 5G high-band (mmWave) which is responsible for delivering the highest frequencies of 5G. This frequency band ranges from 24 GHz to approximately 100 GHz. Considering it is not easy to move high frequencies through obstacles, 5G high-band tends to be short range by nature. Furthermore, the coverage is limited and requires more cellular infrastructure.
Aside from the mmWave, you can also decide to take advantage of 5G mid-band which operates in the 2-6 GHz. It doesn’t stop there as it provides a capacity layer for urban and suburban areas. The good thing about using this frequency band is that it has peak rates in the hundreds of Mbps.
Last but not least is the 5G low-band frequency which operates below 2 GHz and offers a broad coverage. This frequency band leverages spectrum that is available and in use today for 4G LTE. No wonder it provides users LTE 5g architecture for 5G devices that are ready now. To cut the long story short, its performance is similar to 4G LTE, but supports use for 5G devices on the market nowadays.
Now that you already have an insight into the three frequency bands at the core of 5G mobile networks, it might be the right time to make the shift. Either way, be sure to factor in the pros and cons of these frequency bands, after which you can settle on the best for your needs.