Mesh network unreliable
Mesh network unreliable
I have 3 EAP225(EU) v3 wired access points and one EAP-225 Outdoor v1 connected by mesh. They are controlled by an OC200 hardware controller.
The EAP225 Outdoor regularly (every few days) goes "Disconnected" and never recovers. To get it working again, I have to Forget it in the controller, go up the ladder, get the unit down, connect it to a wired port, factory reset it, disconnect it and power it up on wireless, adopt it and input the configuration.
I did this today and the connection lasted about 5 minutes before it went disconnected and it hasn't recovered.
I have upgraded to the latest firmware in the controller (4.1.5), the root APs (2.20.1) and the mesh AP (1.20.0) and it is still a problem.
At the moment, the outdoor unit is not only useless, it's costing me time to keep resetting it.
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Hi @BD1,
In order for the MESH to work the all of the devices in the MESH (at a minimum the Root Node (Indoor EAP) and the Child Node (Outdoor EAP) must be on the same 5GHz channel.
Once adopted and "MESHed" the Outdoor unit will inherit the channel settings from the root node it is MESH'ed with.
So, you'll need to force at least one of your indoor EAP's to use a channel compatible with the Outdoor unit.
-Jonathan
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@BD1,
in my opinion it's a bad idea to mesh and EAP225-Outdoor with an EAP225-Indoor.
EAP225-Outdoor is restricted to outdoor-only channels in the EU (that's the U-NII-2C band), while EAP225 might use indoor-only channels from the U-NII-1 band or DFS channels from U-NII-2A not supported by EAP225-Outdoor. I did not investigate what happens if the EAP225 selects an indoor channel, but I could imagine that this causes a disconnect of the EAP225-Outdoor from the mesh if the EAP225-Outdoor is restricted to outdoor-only channels (and if you did not restrict the EAP225-Outdoor to U-NII-2C outdoor channels, you're in a big risk in the EU).
Within the EU I would only mesh EAP225 (indoor) with EAP225 (indoor) and EAP225-Outdoor with EAP225-Outdoor.
Beside this, I fully agree with @Doc2485. Meshing is no business-like solution and should only be used in the absolute exceptional case (e.g. the building is under monumental protection and cables may not be laid without official permission) and even then only if you have a free line of sight between the mesh nodes and you want to carry traffic from only the 2.4 GHz band to the other mesh node. In every other case you will have to live with the shortcomings of meshing which – in case of an Omada mesh – is implemented much like a repeater mode.
Edit: I just saw you live in the UK.
So, albeit you're not in the EU anymore (lucky you :-) regulatory provisions for RLAN are still like in the EU, thus my above satement still applies.
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@R1D2 Thank you! I tested the mesh unit out 1 time and boom...I knew this was not going to work for businesses and homes.... sent it right back and got my $$$$ back and never looked back. I wire or fiber 1st....2nd option Airmax radios or similar and 3rd option... back up and punt!!!!!!!
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So, that's all well and good. . . .
But, in theory, as long as the OP manually sets the channel of his indoor AP to be a channel that the Outdoor AP can use -- it should work.
For me, my outdoor, wirelessly MESH's AP gives me 80-120 Mbit/sec DL and 100-140 Mbit/se UL all throughout myback yard. So while not "ideal," for the $70 I spent on it, I'm very happy with this -- which is why I bought a second one for the front yard.
-Jonathan
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JSchnee21 wrote
So, that's all well and good. . . .
But, in theory, as long as the OP manually sets the channel of his indoor AP to be a channel that the Outdoor AP can use -- it should work.
Yes. In theory. And in practice DFS beats theory: the EAP will change the channel (or silence it if set to 80 MHz channel width) when a weather radar or any other radar, e.g. military, requests to release the channel. Then, if the indoor EAP changes to one of the indoor-only or U-NII-2A channels due to a DFS request, all bets are off, at least for an EAP225-Outdoor. Thus, if you mesh an EAP225-Outdoor in the EU, mesh it with another EAP225-Outdoor only.
That's BTW the reason why I never did understand that US residents demand DFS for the EAP225.
You just have no control over the selected channel.
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Interesting. See in the US, there are two 80MHz 5.8Ghz, non-DFS channels. And we can freely use these indoors and outdoors. So I can very easily lock my indoor AP onto either, and then use the same channel on the outdoor.
So in the UK/EU there isn't a single 80MHz, non-DFS channel shared between indoor and outdoor? I thought there was one (unlike the 2 in the USA)?
In the USA, the DFS spectrum is hardly used, and would only ever, potentially, be an issue if you happened to live near an airport, weather radar station, or military base. So 99% of the time is prime, free and clear, 160MHz worth of spectrum.
But, the kicker is that it costs more time and money to design and get devices approved by the FCC that add support for the DFS channels (in addition to the regular channels). So most residential/prosumer Wifi gear (AP's) do not support it. Even though most, modern STA's do. Historically, only higher end equipment MFG's (like Cisco) would pony up for the testing and certs.
I'm not aware of any outdoor units that support DFS in the USA -- but I haven't extensively researched this. For approved indoor units, the implementations vary a bit. On some, you can only enable use of the extra DFS channels IFF you use fully automatic channel selection. For others, you can assign a discrete DFS channel, but the unit will still check for interference and will switch away automatically to a standard channel.
Indoors, where one would potentially want to use the DFS channels -- to avoid interference from neighbors, have high AP density (like 3 or 4 AP's in my house), or use 160MHz worth of BW -- there's little or no chance of actually detecting a real (e.g. radar) DFS signal.
Use of DFS is starting to pickup steam in the USA for for backhaul in higher end residential MESH solutions -- the Orbi's and such -- and because, I believe, it's a standard (or at least more common) component of Wifi6.
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JSchnee21 wrote
Interesting. See in the US, there are two 80MHz 5.8Ghz, non-DFS channels. And we can freely use these indoors and outdoors. So I can very easily lock my indoor AP onto either, and then use the same channel on the outdoor.
I know. Both bands, U-NII-1 (5150-5250 MHz) and U-NII-3 (5735-5835 MHz), are non-DFS and are unrestricted in the US.
In Canada, Europe, Russia and Japan the U-NII-1 band is alowed indoors only. In the US and Canada, the U-NII-2A (5250-5350 MHz) is unrestricted, while in Europe, Russia and Japan it's also allowed indoors only. In all mentioned regions U-NII-2A requires DFS. Canada uses a mix of US and EU rules for U-NII-1 (it's like in the EU) and U-NII-2A (it's like in the US). You can see the confusion this causes for CA firmware in some forum threads here, especially if Canadians bought an US device.
In the EU, the U-NII-2C (5470-5690 MHz) is the only band which is allowed outdoors.
BTW, channels in the 5 GHz spectrum are always 5 MHz in width as they are in the 2.4 GHz spectrum. The difference between 5 and 2.4 GHz bands is that the former has four consecutive, non-overlapping channels which form a 20 MHz channel »bundle«. This is the reason why 20 MHz wide channels overlap in the 2.4 GHz band, but not in the 5 GHz band. You can see this in the 5 GHz channel numbers, which advance by four at 20 MHz width (e.g. 36, 40, 44, 48).
Thus, if you set 80 MHz channel width, you are using 16x 5 MHz channels simultaneously. If your WiFi gear supports 5 MHz wide channels (as do Pharos devices) you have 4 times more channels at the price of ¼ bandwidth for each one.
By using 40 or 80 MHz channel width, people create overlapping channels much like in the 2.4 GHz band with all their disadvantages (overlapping with neighboring 20 MHz devices). While this is no issue if used indoors, it indeed is a big concern for 5 GHz directional links if used by outdoors APs.
So in the UK/EU there isn't a single 80MHz, non-DFS channel shared between indoor and outdoor? I thought there was one (unlike the 2 in the USA)?
No. In the EU the 16 channels in U-NII-1 band are non-DFS but require TPC (else max. signal power must be reduced by 3dBm, that's ½ the power). The 16 channels in the U-NII-2A require DFS. All 32 channels are allowed indoors only. Same is true for Russia and Japan, except that Japan does not require TPC in the U-NII-1, but in the U-NII-2A band in addition to DFS.
What's more, EAP225-Outdoor uses only a subset of 16x 5 MHz channels from the U-NII-2C band. No way to select the upper half of the
U-NII-2C band (good for directional links).
A subset of U-NII-3, namely 5755-5875 MHz, is reserved in Germany for Broadband Fixed Wireless Access (BFWA). It provides 20x 5 MHz channels which require DFS and 4x 5 MHz channels which do not require DFS. Only commercial use of this spectrum is allowed and its permanent use must be registered with the authorities, but it's forbidden for public RLAN use. This spectrum is what you call 5.8 GHz.
I'm not aware of any outdoor units that support DFS in the USA
IIRC, UBNT AirFIber devices can use those bands in the US. And Pharos devices in test mode can use a similar broad spectrum, but it has been disabled in the EU b/c there were too many people abusing it (the EU forced vendors to remove this function since it violates the law and caused interferences with other services in non-RLAN bands).
Indoors, where one would potentially want to use the DFS channels -- to avoid interference from neighbors, have high AP density (like 3 or 4 AP's in my house), or use 160MHz worth of BW -- there's little or no chance of actually detecting a real (e.g. radar) DFS signal.
Not sure what you mean. Weather and MIL radars as well as SAT uplinks use very strong signals and also cause forced channel releases in RLAN equipment used indoors on channels which require DFS. That's the reason why DFS is required – to make room for high priority users. DFS has no functionality at all to avoid interferences with APs used by your neighbors.
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OK so I thought I'd give it wone more chance. I factory reset the Outdoor and checked my indoor channel setting. The outdorr unit is defaulted to Auto and the three indoor units are set to different DFS channels. For some reason, they are all on lower channels. I don't understand why the channel settings are ignored.
Anyway, the outdoor unit found one of the indoor units and the indoor then jumped to its configured channel, which is comnpatible with the outdoor. The outdoor has obviously set itself to the same channel.
I also adjusted the indoor unit power from Medium to High and turned it through 90 degrees so it is aimed aty the outdoor (lucky I hadn't attached this one ot the wall).
So all working at the moment but I've been here before so I'm not expecting it to last.
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