I guess one reason why no one is paying attention to it is because is the Wi-Fi speed usually the limiting factor? In my case I’ve rarely ever maxed out my Wi-Fi 6 speeds. Typically the host or the network that I’m on that is the limiting factor.
Although I’m also in the US so I know where not know for having the fastest internet in the world. Maybe in other areas of the world WiFi 7 might be more useful.
Canada, one of our primary ISPs offers fibre to the home with speeds of 1Gbit and even higher. So many threads on their forums with users confused why they can’t get anywhere close to 1Gbit and it always turns out to be WiFi.
I think we are quite a long time from 6E becoming congested. The equpiment is just too expensive right now (nevermind the price of Wifi 7 equipment). In my pretty densely populated area I have zero other 6GHz networks visible from my place.
I don’t think we’ll ever hit 6ghz congestion because it just doesn’t go very far.
In downtown areas 2.4ghz wifi is basically useless, but 5ghz is still pretty serviceable thanks to it’s lower range and more channels. 6ghz is just another 2.4 to 5ghz jump, but now we’re getting down to single room levels of range.
This is very useful in places like big city where there are gazillion of devices fighting for airtime. Wifi 7 devices can dynamically switch channel, or even use multiple channels at once which should help a lot in congested environment.
I have one WiFi 6 access point and unless I’m running a benchmark while right next to it, I can’t tell the difference between it and the WiFi 5 access points. I doubt WiFi 7 will make much difference unless you are running 320MHz channels. There’s only enough bandwidth for 3 of them, so good luck getting decent performance unless you live out in the country though.
High speeds are helpful for anyone that has network storage and doesn’t want to plug in an ethernet cable. It doesn’t have anything to do with how fast your internet is.
I guess one reason why no one is paying attention to it is because is the Wi-Fi speed usually the limiting factor?
On a LAN? Pretty easily if you have a gigabit or greater network. Wi-Fi 6 can do close to gigabit but not consistently and needs to be close to an AP, and it’s unlikely a bunch of devices using it at the same time will be able to do maintain that peak. Maybe 6E, although I don’t have any devices myself that support it.
And WAN speeds of gigabit and greater have become more common, too.
And this ignores the improvements in latency with Wi-Fi 7, which is definitely an issue with traditional Wi-Fi.
Ok, I know why we changed the version naming scheme: a, b, g, n, ac, ax… It was a nightmare, just awful.
But I’ll bet it does still have a IEEE designation, so how does 6 or 7 map to the previous scheme? Also, what’s new, what are the impressive current speeds and features?
I guess one reason why no one is paying attention to it is because is the Wi-Fi speed usually the limiting factor? In my case I’ve rarely ever maxed out my Wi-Fi 6 speeds. Typically the host or the network that I’m on that is the limiting factor.
Although I’m also in the US so I know where not know for having the fastest internet in the world. Maybe in other areas of the world WiFi 7 might be more useful.
Canada, one of our primary ISPs offers fibre to the home with speeds of 1Gbit and even higher. So many threads on their forums with users confused why they can’t get anywhere close to 1Gbit and it always turns out to be WiFi.
I can get very close to 1 Gbit on Ethernet but top out at maybe 400 Mbps on wifi.
Exactly, wifi 7 will probably get us to or close to practical 1Gbit wireless speed vs theoretical 1Gbit speeds.
Wifi 6E already does that, I get about 940 Mbps with my phone on my 6GHz network. That is maybe 10 Mbps less than I get wired.
If you have a non-congested area, 6e is just as fast as 7. 7 just brings a wider channel width and the ability to hop between 6ghz and 5ghz.
I think we are quite a long time from 6E becoming congested. The equpiment is just too expensive right now (nevermind the price of Wifi 7 equipment). In my pretty densely populated area I have zero other 6GHz networks visible from my place.
There were so few 6E devices released, particularly consumer level ones that we can sort of just “skip” it when talking about home user Wifi issues.
I don’t think we’ll ever hit 6ghz congestion because it just doesn’t go very far.
In downtown areas 2.4ghz wifi is basically useless, but 5ghz is still pretty serviceable thanks to it’s lower range and more channels. 6ghz is just another 2.4 to 5ghz jump, but now we’re getting down to single room levels of range.
This is very useful in places like big city where there are gazillion of devices fighting for airtime. Wifi 7 devices can dynamically switch channel, or even use multiple channels at once which should help a lot in congested environment.
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I have one WiFi 6 access point and unless I’m running a benchmark while right next to it, I can’t tell the difference between it and the WiFi 5 access points. I doubt WiFi 7 will make much difference unless you are running 320MHz channels. There’s only enough bandwidth for 3 of them, so good luck getting decent performance unless you live out in the country though.
High speeds are helpful for anyone that has network storage and doesn’t want to plug in an ethernet cable. It doesn’t have anything to do with how fast your internet is.
On a LAN? Pretty easily if you have a gigabit or greater network. Wi-Fi 6 can do close to gigabit but not consistently and needs to be close to an AP, and it’s unlikely a bunch of devices using it at the same time will be able to do maintain that peak. Maybe 6E, although I don’t have any devices myself that support it.
And WAN speeds of gigabit and greater have become more common, too.
And this ignores the improvements in latency with Wi-Fi 7, which is definitely an issue with traditional Wi-Fi.
These new standards aren’t really targeting residential use so just people shouldn’t care.
Also the fact that the faster the wifi, the easier it is to block.
Ok, I know why we changed the version naming scheme: a, b, g, n, ac, ax… It was a nightmare, just awful.
But I’ll bet it does still have a IEEE designation, so how does 6 or 7 map to the previous scheme? Also, what’s new, what are the impressive current speeds and features?
WiFi 7 = 802.11be, FYI
5 is AC, 6 is AX