2.4 vs 5 ghz wifi speed

JOhnH

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I have a Spectrum modem with separate router at my desk.

On both my Ipad PRO and my Iphone X, Speedtest shows about 50-80 Mbps when connected to the 2.4ghz band but around 350 Mbps when connected to the 5 ghz band from about 4 feet away. I realize 5ghz is supposed to be faster, but THAT much faster?
 
Yes, and 2.4 has better range.
 
Lots of variables. If the 5Ghz channels are clean while the 2.4 ones haves lots of other users, then yes, there can be a significant difference
 
Yes, and 2.4 has better range.
When I'm in the far part of the house or out in the yard I often can't even connect to the 2.4ghz band but I can connect to the 5ghz band.
 
Lots of variables. If the 5Ghz channels are clean while the 2.4 ones haves lots of other users, then yes, there can be a significant difference
Yes, lots of variables. One of which could be that the router favors the 5ghz band.
 
When I'm in the far part of the house or out in the yard I often can't even connect to the 2.4ghz band but I can connect to the 5ghz band.

Just because the manufacture put a 2.4 and 5Ghz chip in, doesn't mean they are created equal. Antenna's and other factors come into play.
RF interference is a huge issue, that no one ever pays attention to.
 
2.4 is slower and more susceptible to interference as it has fewer channels to choose from. It has a longer range and will penetrate further through obstructions such as walls, floors, trees, etc.

5.0 is faster but attenuates faster, too. It has significantly more channels available so will be less likely to suffer from interference in most appliacations.

I restrict all my IoT (internet of things) devices to 2.4. They don't need the speed and benefit from the better range.
 
When I'm in the far part of the house or out in the yard I often can't even connect to the 2.4ghz band but I can connect to the 5ghz band.

That's almost certainly interference from your neighbors. Most 2.4 GHz channels overlap each other. None of the 5 GHz channels overlap. If you have an Android phone or tablet, grab a free app called WiFi Analyzer. It does a great job visualizing it.

iu
 
I never thought about the range between the two, but it makes sense...I have acreage and when I mow, I often have problems streaming music to my phone. I wonder if it would help to connect to 2.4 instead? I'll have to try...
 
If all of your devices are of recent vintage, you should name both networks identically and let the device pick the frequency it wants as you roam about.
 
If all of your devices are of recent vintage, you should name both networks identically and let the device pick the frequency it wants as you roam about.
I didn’t know it worked that way.
Do you mean if one is called bonanza that the other should also be called bonanza, and not bonanza5? Can they have different passwords? (For guests).
 
Can they have different passwords? (For guests).
Modern WiFi routers can create virtualized radios/access points. There should be a guest mode in there somewhere.
 
I'm surprised no one's posted this yet:

As this is radio technology, the WiFi routers negotiate the most reliable connection. The slower, speeds are generally more reliable at distance, while faster speeds are attained by physically close-proximity devices. (Yes, the macbook in your living room will connect at a faster speed than the one on your sun deck, assuming the first is closer to the WiFi router.)

802.11b, introduced in 1999, works in the 2.4Ghz spectrum and negotiates connections from devices in increments between 1Mb/sec and 11Mb/sec.

802.11g, introduced in 2003, also in the 2.4Ghz channel space, connects devices between 6Mb/sec and 54Mb/sec.

802.11n was introduced in 2008 and works in both 2.4Ghz and 5Ghz spectrums, depending on the equipment capabilities. It was a tremendous jump-forward in connection speed, at 72Mb/sec to 600Mb/sec. (yes, it's slowest connection rate is faster than the fastest 802.11g speed).

802.11ac works exclusively on 5Ghz radio equipment, and negotiates connections from devices from 433 to 6,933 Mb/sec.

So here's my takeaway:
  • yes you need to pay attention to the little letters.
  • 802.11n is quite common and works on both 2.4 and 5Ghz radios
  • this really only matters on device-to-device communications.
  • If your gateway in/out of the WiFi router is a 50Mb/sec internet connection, 802.11n and 802.11ac don't materially differ for external traffic. (you won't load the POA webpage faster)
 
When I'm in the far part of the house or out in the yard I often can't even connect to the 2.4ghz band but I can connect to the 5ghz band.

This isn't a typical result, and is an indicator that interference or equipment differences aren't allowing an equal playing field.
 
I'm surprised no one's posted this yet:

As this is radio technology, the WiFi routers negotiate the most reliable connection. The slower, speeds are generally more reliable at distance, while faster speeds are attained by physically close-proximity devices. (Yes, the macbook in your living room will connect at a faster speed than the one on your sun deck, assuming the first is closer to the WiFi router.)

802.11b, introduced in 1999, works in the 2.4Ghz spectrum and negotiates connections from devices in increments between 1Mb/sec and 11Mb/sec.

802.11g, introduced in 2003, also in the 2.4Ghz channel space, connects devices between 6Mb/sec and 54Mb/sec.

802.11n was introduced in 2008 and works in both 2.4Ghz and 5Ghz spectrums, depending on the equipment capabilities. It was a tremendous jump-forward in connection speed, at 72Mb/sec to 600Mb/sec. (yes, it's slowest connection rate is faster than the fastest 802.11g speed).

802.11ac works exclusively on 5Ghz radio equipment, and negotiates connections from devices from 433 to 6,933 Mb/sec.

So here's my takeaway:
  • yes you need to pay attention to the little letters.
  • 802.11n is quite common and works on both 2.4 and 5Ghz radios
  • this really only matters on device-to-device communications.
  • If your gateway in/out of the WiFi router is a 50Mb/sec internet connection, 802.11n and 802.11ac don't materially differ for external traffic. (you won't load the POA webpage faster)
And then there's Wifi6/6E.

Also, don't forget that things negotiate down to the lowest common denominator.
 
Yeah, I'm aware of 6/6E. Didn't think it was really part of the discussion, quite yet. The purpose of my list was to simply cite the more common standards that come into play as we change from 2.4 to 5Ghz, not document the progression of the technology.
 
On both my Ipad PRO and my Iphone X, Speedtest shows about 50-80 Mbps when connected to the 2.4ghz band but around 350 Mbps when connected to the 5 ghz band from about 4 feet away. I realize 5ghz is supposed to be faster, but THAT much faster?
Yes, because it has more Hertz.
 
In my experience Wifi on devices is a complete black box. Trying to determine why it is connecting to a particular access point or at a particular frequency is anyone's (except the company who wrote the driver) guess.
 
In my experience Wifi on devices is a complete black box. Trying to determine why it is connecting to a particular access point or at a particular frequency is anyone's (except the company who wrote the driver) guess.

And, for the most part, we're given absolutely zero insight, and zero tools to observe/manage how it works.

Frustrating for those of us that want a few knobs and gauges.
 
And, for the most part, we're given absolutely zero insight, and zero tools to observe/manage how it works.

Frustrating for those of us that want a few knobs and gauges.

I work at an institution of higher education occasionally we need to track devices on our WIFI. Sometimes what they do and what they connect to seems to make no sense at all. Then the user blames you because they are having connectivity problems.
 
RGBeard is spot on with the different protocols, especially in the 2.4 GHz band. One thing that can happen with 2.4, and much less likely with 5, is that when a device pops on it can force a kind of a re-negotiation of protocol, if the device is older and doesn't understand what's going on with the newer protocol. Not an issue if all of your equipment supports the newer standard, but bringing up older 2.4 devices can slow things down a bit on that band until they re-sync. I haven't heard of that happening with 5 Ghz.

2.4 is also used frequently by non-wifi devices, or at least used to be, and they can take away channel availability.
 
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