A Brief History of WiFi

Although the first wireless networking specifications and standards were released in 1997, the technologies that comprise the WLANs of today have a long history that can be traced back to the 1800s.

The estimated number of WiFi enabled devices in use today is estimated to be close to 7 billion! With that said, it's easy to understand why WiFi is considered one of the greatest technology inventions in modern history. Could you live a day without your smartphone, tablet or laptop?

The table below listed the key dates and their significance in the evolution of WiFi. I purposly began the adventure at the discovery of Electromagnetic Waves as to not go down the rabbit hole that could include half of science!

See my previous post for a summary of IEEE 802.11 PHY Standards.

802.11n + 802.11ac data rates and SNR requirements

When designing a wireless network that requires very high data rates per client device, it is critical that you understand what conditions need to be met in order for the client devices to hit those rates (maybe a post for another time).

At the end of the day it comes down to one factor: A higher Signal-to-Noise Ration (SNR) will produce a higher data rate.

I have two sites bookmarked in my web browser to remind me of those requirements.

http://www.revolutionwifi.net/revolutionwifi/2014/09/wi-fi-snr-to-mcs-data-rate-mapping.html

and

http://mcsindex.com/

Both authors have obviously done an incredible amount of research to gather the data so I absolutely in no way pretend to have put together this myself. The Receive Sensitivity/RSSI requirements have been compiled from various sources and should only be used as a guide as each vendor radio will have their own specifications.

Anyway... I got tired of flicking between the two sites above so I decided to create a chart that merges the two. It has become my one stop shop for quickly determining the SNR requirements for a required throughput (I lie, there are two charts, one for 802.11n and one for 802.11ac.)

I recommend having a read of the first post. Andrew Von Nagy has done an amazing job on explaining the how MCS rates are achieved...

802.11n

 802.11ac

For those that don't have the ability to download the images in HD; I have provided a link to the original excel document - 802.11n/ac data rates and SNR requirements

I welcome all feedback!

-Brett

Cisco Patch Antenna and Cabling Configurations

When you make the decision to use a Cisco patch antenna for use on an AP model that requires external antennas, choosing the correct antenna and cabling accessories to do the job can be a bit of a daunting task.

You will still need to perform a site survey to determine which AP will meet your density, performance and coverage requirements, but you need to make sure the antenna is compatible with your AP! 

Typically your Cisco Sales Rep will know what parts connect to what, but it is always handy to know what your options are.

I don't deploy outdoor APs or indoor APs with external antenna connectors too often, so when I do I often forget what I can and can't do in this space. 

I created the images below to remind me quite some time ago, however have recently updated them with the latest Cisco AP models.

Please let me know if anything is incorrect!

IEEE 802.11 PHY Standards

The IEEE 802.11 standards used by the Wireless LANs of today have seen many amendments since first being published in June 1997. These amendments address the ever-growing demands put on the wireless medium due to the the onslaught of mobile devices and the need for wireless performance to be on par with the wired network.

The image below summarises the key 802.11 PHY protocols, which have a primary goal of increasing throughput to the wireless client device;

I will keep this table updated as new standards are ratified. In a future post I will list all 802.11 standards and amendments.

-Brett