So you're saying that even if the receiving device moves out of the transmitting range of the receiving device it still will complete a download? So how does it send the ACK bits back to the access point? Or confirm checksums to make sure the download wasn't corrupted? Or do time-sync updates? Both devices have to be able to send and receive for the full download to complete.
I think you're getting your protocols mixed up. And maybe some of the numbers. 5GHz (and 6GHz) Wireless LAN is nothing to do with cellular communications. You cannot compare the two. And where are you getting 30kW from? Do you have any idea what a 30kW transmitter would be like? I very much doubt there is a 5G transmitter in the UK over 100W. The ones I have seen being installed in teh greater Manchester area are in the 5-10W size range and cover an area about the size of a football pitch. And they have very sensitive receiving antenna to allow for the fact that the phone they are talking to is only sending out 500mW to 1W.
No, you asked what the currently available bands and power outputs are. They're talking about opening up new bands. The existing ones will remain.
So you're saying that even if the receiving device moves out of the transmitting range of the receiving device it still will complete a download? So how does it send the ACK bits back to the access point? Or confirm checksums to make sure the download wasn't corrupted? Or do time-sync updates? Both devices have to be able to send and receive for the full download to complete.
I think you're getting your protocols mixed up. And maybe some of the numbers. 5GHz (and 6GHz) Wireless LAN is nothing to do with cellular communications. You cannot compare the two. And where are you getting 30kW from? Do you have any idea what a 30kW transmitter would be like? I very much doubt there is a 5G transmitter in the UK over 100W. The ones I have seen being installed in teh greater Manchester area are in the 5-10W size range and cover an area about the size of a football pitch. And they have very sensitive receiving antenna to allow for the fact that the phone they are talking to is only sending out 500mW to 1W.
No, you asked what the currently available bands and power outputs are. They're talking about opening up new bands. The existing ones will remain.
Of course without wishing to teach you how to suck eggs, radio waves are carriers and behave as radio waves regardless of the protocols. The Ofcom report deals with both 5Ghz and 6Ghz bands 30KW I did say was was the Maximum, I did not mention whether any have been installed, and I've been inside transmitting stations which operate in the 250KW power output so I think I have an idea! Most of the sites in GM are small so they can avoid planning requirements probably thanks to David Icke. I don't know the power output of the pavement installed ones are, but given the power supplies and fan cooling I'd be surprised if it's as low as 10W, but then we could be talking about different installations.
Ofcom are not as far as I can tell talking about opening up new bands, those bands already exist for WiFi, I didn't ask what the current output powers are, I mentioned that they didn't state what they were, which would have been a reasonable statement for ease of comparison. Here they are anyway:
Current powers are
Channels 36-64: 200mW.
Channels 100-140: up to 1000mW (1 watt).
Channels 149 - 161: 25mW.
I posted the link so people could have a read and decide if it's of interest, that's all.