This blog post is about the Cisco 3600 access point, the 802.11 AC Module (wave 1) available for that access point and finally the software called "chanalyzer" available to help you with detecting interference and leveraging your Cisco Cleanair access points.
So Incase you where not aware, Cisco have had some access points out now for quite some time called the Cisco 3600 Access Points:
The 802.11 AC module is I believe, an industry first in that your existing 802.11N access points (the 3600's) can be field upgraded to 802.11AC.
The module simply plugs into the back of the AP, as shown in the following pictures:
As you can see, it's quite straight forward! Simply place the module into the slot shown on the AP and then tighten the finger-tight screws
- If 802.11 Ac can offer "gigabit wifi", and its maximum theoretical speed is 1.3 Gigabits per second, don't I need more than 1 gigabit connection from the AP to the switch?
No! 1.3 Gigabit is the maximum theoretical PHYSICAL speed of the radio media, the actual throughput onto the LAN will be less, quite a bit less as we will see.
- Does the 802.11 AC Module require more power?
Yes, you need to make sure your switch supports POE+, the output below shows the wattage required for a 1142 vs the 3602 with the 802.11 AC Module:
homeSwitch3750#show power inline
Module Available Used Remaining
(Watts) (Watts) (Watts)
------ --------- -------- ---------
1 480.0 35.4 444.6
Interface Admin Oper Power Device Class Max
--------- ------ ---------- ------- ------------------- ----- ----Gi1/0/5 auto on 20.0 AIR-CAP3602I-N-K9 4 30.0
Gi1/0/18 auto on 15.4 AIR-LAP1142N-N-K9 3 30.0
- Is it really just plug and play?
Yes! Simply turn the AP off, plug the module in, turn it back on and make sure your running WLC Code of version 7.5 or later, then enable 802.11 AC in the controller.
What kind of speed can we really get from 802.11AC?
I tested with the following equipment:
ASUS PCE-66 802.11 AC Wireless Card
Cisco 3600 Access Point
Laptop connected to gigabit network.
The enviroment was a home setup with quite a bit of wireless interference.
The first step was to establish a gigabit ethernet (wired) benchmark, which resulted in:
722 Megabits per second
The following tests where undertaken:
802.11AC (5.0ghz only, 80 Mhz)
5.0Ghz, TCP, Close Average Speed: 166 Mbits/Sec
5.0Ghz, TCP, 1 Room away Speed: 102 Mbits/Sec
As you can see, it's not even in the same ballpark as what we can get for wired, but it's a significant improvement over 802.11N:
802.11n (5.0Ghz. 40MHZ)
5.0 GHZ TCP Close average speed: 108 Mbits per Second
5.0 GHZ TCP, 1 Room Away Speed: 69.3 Mbits Per Second
802.11n (2.4 GHZ)
2.4 GHZ TCP, Close Average Speed: 71.1 Mbits Per Second
2.4 GHZ, TCP, 1 Room Away Speed:, 50.1 Mbits Per Second
The results above show that 802.11 AC could potentially be a worthwhile improvement, but is certainly not the gigabit wifi we have been led to believe it could be.
The speeds, as rough as they are closely match those achieved by Tom's Hardware:
I discovered Chanalyzer at a customers site and wanted to share it with you guys, it' s an exceptionally useful tool when combined with Cisco Clean Air
The software can be used to connect to a Cisco Access Point running clean air to retrieve spectrum information in real-time!
The above screen looks quite busy but is essentially showing interfering devices, in this case an xbox controller. This real-time analysis can really help you realize what might be affecting the network.
After dowloading Chanalyzer, you will need to connect to the AP:
The NSI key stands for "network spectrum interface key" and can be found on the WLC Access point page:
This can be very useful for troubleshooting Clean Air Problems.
I hope you enjoyed this blog!
Incidentally, this is my first blog post as a Cisco Data Center Champion, an honor I was recently bestowed by Cisco. Hopefully I can live up to the name!