That thing with 3G sounds right. I usually switch to 3G when I want faster speeds than 4G, which gets me only around 1-3Mbps during the day in my location*. If I do want even faster speeds, I have to use the internet between 1-4am when I can reach pretty nice 40Mbps.
Unfortunately, when connected to 3G of Orange in national roaming, I can only use 20GB as stated in the FUP (my carrier doesn’t offer 3G). However the carrier has confirmed they unofficially allow up to 40GB for some reason.
But that’s not enough for me. I use around 80GB per month on mobile data, but sometimes I reach up to 150GB.
*In some areas with lower population (typically small villages), I get almost the maximum theoretical speeds of 75Mbps.
Rai@lemmy.dbzer0.com 10 months ago
wtf that’s not even possible where even country how
atrielienz@lemmy.world 10 months ago
The infrastructure is newer, more people are switching to 5G out of necessity, and the influx of newer users is straining that infrastructure which is not prepared for it.
5G is supposed to have taken over the network frequencies of 3G (15MHz to 20MHz) from 800 MHz, 850 MHz, 900 MHz, 1,700 MHz, 1,900 MHz and 2,100 MHz bands. The problem with that is the higher the frequency used, the farther it travels through unimpeded space, but the lower it penetrates in impeeded space. 5G (1GHz to 6GHz) on the same frequency bands won’t penetrate as far in dense urban population centers with large buildings.
So yes, 5G can send more data at a faster rate. But don’t confuse bandwidth with signal clarity or penetration. Because higher frequency doesn’t always mean better operation or even better transmission. The receiver also figures into what is being transmitted. You can have the biggest array with the highest UHF and if the receiver isn’t in a place with optimal reception, or it’s not built for that input it will mean nothing. pcmag.com/…/5g-is-here-but-how-it-performs-varies…