Wireless networks have come a long way in the past couple of decades. And yet, sustained Wi-Fi speeds are still a vexing problem in a lot of situations. A number of things can come into play, such as the way your router is set up, whether there’s nearby interference, whether you live in an apartment building or a separate house, where your microwave sits in relation to the rest of your network (yes, really), and how far apart your devices are from the router. Fortunately, there’s always a way to fix slow transfer speeds.
If you’ve ever messed around with your Wi-Fi router’s settings, you’ve probably seen the word “channel.” Most routers have the channel set to Auto. But many of us have looked through that list of a dozen or so channels and wondered what they are, and more importantly, which of the channels are faster than the others. Well, some channels are indeed much faster — but that doesn’t mean you should go ahead and change them just yet. Read on to find out more about 802.11 channels, interference, and the difference between 2.4GHz and 5GHz Wi-Fi.
The fastest version of Wi-Fi currently available is branded as “Wi-Fi 6,” aka 802.11ax. If you’re wondering why we moved to branded naming as opposed to the standard number + a signifying letter combination, it’s because there are a lot more low-level updates and specification changes to 802.11 than their used to be. After 802.11ac in 2013, we’ve had .ad, .af, 802.11-2016, .ah, .ai, .aj, and .aq. Rather than asking people to continue playing “Guess the relevant Wi-Fi standard,” somebody decided it would be easier to just call the current major consumer version “Wi-Fi 6.” There’s an even newer standard, Wi-Fi 6E, which supports signals in the 5-6GHz band, but there’s no Wi-Fi 6E hardware to speak of in-market yet.
Channels 1, 6, and 11
First of all, let’s talk about 2.4GHz, because even in 2020, the majority of Wi-Fi installations still use the 2.4GHz band in some way. 802.11ac, which debuted in 2013, is driving adoption of 5GHz, helped along by adoption of 2020’s 802.11ax / Wi-Fi 6 — but thanks to backwards compatibility, dual-radio routers and devices, and lower-cost peripherals with less expensive chipsets, 2.4GHz will continue to reign for a while.
All versions of Wi-Fi up to and including 802.11n (a, b, g, n) operate between the frequencies of 2400 and 2500MHz. These 100MHz are separated into 14 channels of 20MHz each. As you’ve probably worked out, 14 lots of 20MHz is a lot more than 100MHz — and as a result, every 2.4GHz channel overlaps with at least two, if not four, other channels (see diagram above). And as you can probably imagine, using overlapping channels is bad — in fact, it’s the primary reason for poor throughput on your wireless network.
Fortunately, channels 1, 6, and 11 are spaced far enough apart that they don’t overlap. On a non-MIMO setup (i.e. 802.11 a, b, or g) you should always try to use channel 1, 6, or 11. If you use 802.11n with 20MHz channels, stick to channels 1, 6, and 11 — if you want to use 40MHz channels, be aware that the airwaves might be congested, unless you live in a detached house in the middle of nowhere.
What channel should you use in a crowded area?
If you want maximum throughput and minimal interference, channels 1, 6, and 11 are your best choices. But depending on other wireless networks in your vicinity, one of those channels might be a better option than the others.
For example, if you’re using channel 1, but someone next door is annoyingly using channel 2, then your throughput will plummet. In that situation, you would have to change to channel 11 to completely avoid the interference (though 6 would be pretty good as well). It might be tempting to use a channel other than 1, 6, or 11 — but remember that you will then be the cause of interference (and everyone on 1, 6, and 11 will stomp on your throughput, anyway).
In an ideal world, you would talk to your neighbors and get every router to use channels 1, 6, or 11. Bear in mind that interior walls do a pretty good job of attenuating (weakening) a signal. If there’s a brick wall between you and a neighbor, you could probably both use channel 1 without interfering with each other. But if it’s a thin wall (or there’s lots of windows), you should use different channels.
There are tools that can help you find the clearest channel, such as Vistumbler. But it’s probably faster to just switch between channels 1, 6, and 11 until you find one that works well. (If you have two laptops, you can copy a file between them to test the throughput of each channel.)
But what about 5GHz?
The great thing about 5GHz (802.11n, 802.11ac, and Wi-Fi 6) is that because there’s much more free space at the higher frequencies, it offers 23 non-overlapping 20MHz channels. 6GHz should continue this trend, with even more frequency space (although with slightly worse propagation characteristics).
Starting with 802.11n and continuing with 802.11ac, wireless technology in general became much more advanced than the prehistoric days of 802.11b and g. If you own at least a decent 802.11n or 802.11ac router (i.e. if you bought a router in the last several years), it likely has some hardware inside that chooses the right channel automatically and modifies the output power to maximize throughput and minimize interference.
If you’re using the 5GHz band, and your walls aren’t paper-thin, then attenuation and the general lack of 5GHz devices should mean there’s little interference in your apartment — possibly even allowing you to use the fatter 40, 80, and 160MHz channels if you feel like it.
Eventually, as everyone upgrades to newer hardware and moves towards 5GHz, picking the right channel will mostly become a thing of the past. There may still be some cases where it makes sense to fine-tune your router’s channel selection. But when you’re dealing with MIMO setups (up to eight in 802.11ac), it’s generally a better idea to let your router do its own thing. Eventually, of course, 5GHz will fill up as well — but hopefully by then, we’ll have worked out how to use even higher frequencies (60GHz WiGig) or entirely new antenna designs (pCells, infinite capacity vortex beams) to cope with our wireless networking demands.
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