And in these lower speed ends, we are typically facing cheaper models that don't offer Ethernet backhaul. That is the most important reason not to go for the AX1800 Wifi, unless there is an Ethernet backhaul. In case of the AX1800 this would be half of that 300 Mbps if connected to the sattelite only, hence delivering only 150 Mbps. So for now and even for the forseeable future, the AX1800 might suffice.Įdit 2: additionally, as this will be in a mesh configuration, half of the bandwidth of the 2nd sattelite will be reserved for WiFi backhaul, hence slashing the AX3000 to AX1800 speeds anyway without an Ethernet backhaul. So (refering to the ref closed post) this would mean that AX3000 is the way to go to be future proof.Įdit: but I do realize that getting 260 Mbps is more than I need for four people (2 adults, 2 children 9-11yo) to actually consume. This would conclude (for my case) that AX1800 will date too quickly and AX3000 is favorable over AX1800 to be future proof. That is close to the current 260 Mbps that I get from my current Wifi 5 router. Wifi AX3000 (600 Mbps in the 2.4 GHz band and 2400 Mbps in the 5 GHz band) would only get me 600 Mbps throughput in realistics conditions.ĪX1800 provides only half of that, ending up with about 300 Mbps throughput. However, a much more realistic maximum PHY speed is 1200 Mbps for an 80 MHz channel to a 2×2 client (840 Mbps throughput), and for a realistic distance away from the router, a PHY speed of 864 Mbps (600 Mbps throughput). I stumbled across this incredibly detailed page that covers pretty much everything about Wifi standards and realistic expectations based on many different Wifi characteristics and features:Ģ401 Mbps speed: The 2401 Mbps maximum PHY speed is for an 80 MHz channel to an 4×4 client. I've heard many times that what I want is not posisble due to the many factors of uncertainty: bandwidths) based on expected bandwidth loss, given the actual 260 Mbps bandwidth from my provider and about 13 Wifi devices, most of which connect on the 5 GHz band? So my question is: how can I calculate the amount of Wifi bandwidth I need (as different Wifi 6 kits offer different max. There's going to be overhead, areas with lower speeds, concurrency. But I don't think I can just divide the 150 Mbps over my devices and dimension my wifi to just go up to 150 Mbps. 9.6 Gbps) is to be divided over all of these devices. With Wifi 6 the bandwidth (theoretically max. They are on 2 separate floors and the mesh network will connect them using an Ethernet backhaul.
large numbers of users and devices in bandwidth-intensive environments. I have about 15 devices that connect ranging from smart devices to smartphones and laptops, TVs and set-top boxes and even a Raspberry Pi. Wi-Fi 7 leads to better performance and higher speeds with more network use for.
My internet provider subscription gets me 150 Mbps officially, but in practice runs up to about 260 Mbps (max. For my home network, I'm trying to set up a Wifi 6 mesh network.
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