This article is Part Two of my Linksys EA6500 router review, where I try to quantify the speed difference between wireless, AC and wired connection speeds when streaming content over the internet using a PS3. Read on for details!
This article is Part Two of my Linksys EA6500 router review, where I try to quantify the speed difference between wireless, AC and wired connection speeds when streaming content over the internet using a PS3.
In Part One, I did the basic installation steps.
Apology for the Delay
This review series has been delayed by about a month and I apologize for that. I had to take a trip to Japan for work, and while I was gone, our basement flooded, meaning that I had to dismantle most of my test equipment until that was cleaned up. Now that we’re back up and running, I am back at this review series. Look for good stuff coming soon!
Background on AC Routing
802.11AC is the latest standard to be issued that covers wireless networking. Linksys published a nice white paper on the changes brought by AC; here is some of the Executive Summary:
802.11ac, the emerging standard from the IEEE, is like the movie The Godfather Part II. It takes something great and makes it even better. 802.11ac is a faster and more scalable version of 802.11n. 802.11ac couples the freedom of wireless with the capabilities of Gigabit Ethernet.
Wireless LAN sites will see significant improvements in the number of clients supported by an access point (AP), a better experience for each client, and more available bandwidth for a higher number of parallel video streams. Even when the network is not fully loaded, users see a benefit: their file downloads and email sync happen at low-lag gigabit speeds. Also, device battery life is extended, since the device’s Wi-Fi interface can wake up, exchange data with its AP, then revert to dozing that much more quickly.
802.11ac achieves its raw speed increase by pushing on three different dimensions:
- More channel bonding, increased from the maximum of 40 MHz in 802.11n, and now up to 80 or even 160 MHz (for 117% or 333% speed-ups, respectively)
- Denser modulation, now using 256 quadrature amplitude modulation (QAM), up from 802.11n’s 64QAM (for a 33% speed burst at shorter, yet still usable, ranges)
- More multiple input, multiple output (MIMO). Whereas 802.11n stopped at four spatial streams, 802.11ac goes all the way to eight (for another 100% speed-up).
The design constraints and economics that kept 802.11n products at one, two, or three spatial streams haven’t changed much for 802.11ac, so we can expect the same kind of product availability, with first-wave 802.11ac products built around 80 MHz and delivering up to 433 Mbps (low end), 867 Mbps (midtier), or 1300 Mbps (high end) at the physical layer. Second-generation products promise still more channel bonding and spatial streams, with plausible product configurations operating at up to 3.47 Gbps.
802.11ac is a 5 GHz-only technology, so dual-band APs and clients will continue to use 802.11n at 2.4 GHz. However, 802.11ac clients operate in the less crowded 5 GHz band.
Netgear also is involved in AC routing and prepared this video that explains their viewpoint on 802.11 AC:
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