Draft N Router Coverage: When the "n" in 802.11n really means "not yet"
by Gary Key on August 30, 2006 5:00 AM EST- Posted in
- Networking
It has been over two and half years since the Institute of Electrical and Electronics Engineers (IEEE) formed a task group to develop and implement a new 802.11 standard for wireless local area networks (WLAN). The proposed standard is known as 802.11n and is designed to eventually offer speeds up to 600 Mbps (burst mode, quad spatial streaming in the 5GHz band) with average data transfer rates around 200 Mbps and ranges extending up to 200 Feet indoors. The current shipping Draft N products advertise speeds up to 300 Mbps (burst mode, dual channel streaming) with data transfer rates reaching 130 Mbps and indoor distances up to 150 feet. The current 802.11g standard offers speeds up to 54 Mbps with sustained transfer rates around 24 Mbps operating at distances up to 100 feet indoors.
The proposed 802.11n amendment has had a colorful and storied history. This proposed standard does not have the publicity of the continuing HD-DVD/Blu-ray DVD drama. However, it does have similarities in the way two camps consisting of rival competitors have bickered over a next generation standard that should have been ratified by now. During the early creation phase of this project there were two camps jockeying to define 802.11n. These camps included the WWiSE (World-Wide Spectrum Efficiency) whose primary team members consisted of Airgo, Broadcom, and Texas Instruments along with TGNSync that was led by Intel, Atheros, and Marvell.
After months of bickering, these two groups along with the newly formed MITMOT (Mac and Mimo Technologies for More Throughput) team consisting of Motorola and Mitsubishi merged into a single group known as the Joint Proposal Team. This was a short lived alliance as the team fell apart with Intel, Atheros, Marvell, and Broadcom splintering off to create the Enhanced Wireless Consortium (EWC).
The EWC did what the other members and teams could not as they were able to get the IEEE 802.11n task group to approve their specification as the proposed 802.11n standard in January of 2006. In March of 2006, the IEEE committee sent the proposal known internally as 802.11n, Draft 1.0, to its first letter ballot. The Draft 1.0 proposal failed miserably as it could not even gain a simple majority vote in favor of the proposal much less the required 75 percent majority required for ratification.
Over 12,000 comments were received from various IEEE members citing standards issues, operating frequency conflicts, and an overwhelming list of deficiencies (concerns) that include everything from power saving guidelines for handheld devices to proper streaming techniques for audio and video in media servers. In May of 2006, the IEEE 802.11 committee decided not to forward the Draft 1.0 proposal for a full sponsor vote and instead sent the 802.11n task group back to the drawing board to devise a new standard that would meet the concerns of the IEEE membership.
However, the primary members of the EWC that backed the 802.11n, Draft 1.0, specification started shipping "Draft N" product into the market shortly after the proposal was sent to its first letter ballot. This is a decision that could potentially haunt manufacturers and customers alike depending upon what the next draft proposes in the way of compliance to two main issues. While the current suppliers of Draft N products would like you to think that firmware and driver updates could potentially ensure their product is compatible with the upcoming standard there is no guarantee the products will work with the new standard properly, much less each other.
Out of the 12,000 comments about half of them have been resolved at this point through editorial content changes in the initial draft with a significant amount of the remaining comments being duplicates. However, there are a couple of issues that are at the crux of the current controversy. The two main issues with the 802.11n, Draft 1.0, proposal that are being remedied at this time include proper Clear Channel Assessment (CCA) and power-save multi-polling standards for handheld devices. The most critical issue currently is how to resolve the "bad neighbor" effect of the current Draft N hardware.
In essence, only three of the eleven 20MHz channels in the current 2.4GHz band where 802.11b, 802.11g, and proposed 802.11n standards operate do not overlap in most instances. These channels are currently 1, 6, and 11. The 802.11n Draft 1.0 proposal currently stipulates these 20MHz channels in the same frequency band while allowing for the optional 40MHz channel in the same band. This 40MHz channel capability is due to 802.11n defaulting to the use of two 20MHz channels of bandwidth via a throughput enhancing design known as channel bonding that appeared in the original MIMO (Multiple In, Multiple Out) products. The 40MHz signal can potentially overlap all of the 20MHz channels in the 2.4GHz band which allows for the disruption of any devices operating on the 20MHz channels. This creates the "bad neighbor" effect as you have the Draft N devices stepping on the legacy product signals, and this has been one of the major issues with the current release of products.
In order to solve this issue, the current recommendation is to still permit the use of the 40MHz channels but to "ensure" a method of detecting legacy networks operating on the same channel and then having the 802.11n device fall back, even temporarily, to a single or different 20MHz channel in order to avoid a collision. Current Draft N products do this to a certain degree; ensuring this rule occurs is the preferred solution but it will render most of the current Draft N devices useless with the new standard. This change will require additional hardware capability or a silicon change to properly monitor and then switch channels on the fly to guarantee proper CCA is being performed. Also, 40MHz operation will have to be optional as this channel is not available for use in Japan and sections of Europe at this time.
We currently expect the differences to be resolved in time for a second draft to be completed this November with a letter ballot going out in January of 2007. If this is approved we can expect final ratification in late 2007 or early 2008 although we very well could see a Draft 3.0 in the spring if real progress is not made this winter. However, the products released that meet an approved Draft 2.0/3.0 specification are almost certain to be fully compliant with the final 802.11n amendment. Let's see how our first batch of Draft N products performs at this time.
The proposed 802.11n amendment has had a colorful and storied history. This proposed standard does not have the publicity of the continuing HD-DVD/Blu-ray DVD drama. However, it does have similarities in the way two camps consisting of rival competitors have bickered over a next generation standard that should have been ratified by now. During the early creation phase of this project there were two camps jockeying to define 802.11n. These camps included the WWiSE (World-Wide Spectrum Efficiency) whose primary team members consisted of Airgo, Broadcom, and Texas Instruments along with TGNSync that was led by Intel, Atheros, and Marvell.
After months of bickering, these two groups along with the newly formed MITMOT (Mac and Mimo Technologies for More Throughput) team consisting of Motorola and Mitsubishi merged into a single group known as the Joint Proposal Team. This was a short lived alliance as the team fell apart with Intel, Atheros, Marvell, and Broadcom splintering off to create the Enhanced Wireless Consortium (EWC).
The EWC did what the other members and teams could not as they were able to get the IEEE 802.11n task group to approve their specification as the proposed 802.11n standard in January of 2006. In March of 2006, the IEEE committee sent the proposal known internally as 802.11n, Draft 1.0, to its first letter ballot. The Draft 1.0 proposal failed miserably as it could not even gain a simple majority vote in favor of the proposal much less the required 75 percent majority required for ratification.
Over 12,000 comments were received from various IEEE members citing standards issues, operating frequency conflicts, and an overwhelming list of deficiencies (concerns) that include everything from power saving guidelines for handheld devices to proper streaming techniques for audio and video in media servers. In May of 2006, the IEEE 802.11 committee decided not to forward the Draft 1.0 proposal for a full sponsor vote and instead sent the 802.11n task group back to the drawing board to devise a new standard that would meet the concerns of the IEEE membership.
However, the primary members of the EWC that backed the 802.11n, Draft 1.0, specification started shipping "Draft N" product into the market shortly after the proposal was sent to its first letter ballot. This is a decision that could potentially haunt manufacturers and customers alike depending upon what the next draft proposes in the way of compliance to two main issues. While the current suppliers of Draft N products would like you to think that firmware and driver updates could potentially ensure their product is compatible with the upcoming standard there is no guarantee the products will work with the new standard properly, much less each other.
Out of the 12,000 comments about half of them have been resolved at this point through editorial content changes in the initial draft with a significant amount of the remaining comments being duplicates. However, there are a couple of issues that are at the crux of the current controversy. The two main issues with the 802.11n, Draft 1.0, proposal that are being remedied at this time include proper Clear Channel Assessment (CCA) and power-save multi-polling standards for handheld devices. The most critical issue currently is how to resolve the "bad neighbor" effect of the current Draft N hardware.
In essence, only three of the eleven 20MHz channels in the current 2.4GHz band where 802.11b, 802.11g, and proposed 802.11n standards operate do not overlap in most instances. These channels are currently 1, 6, and 11. The 802.11n Draft 1.0 proposal currently stipulates these 20MHz channels in the same frequency band while allowing for the optional 40MHz channel in the same band. This 40MHz channel capability is due to 802.11n defaulting to the use of two 20MHz channels of bandwidth via a throughput enhancing design known as channel bonding that appeared in the original MIMO (Multiple In, Multiple Out) products. The 40MHz signal can potentially overlap all of the 20MHz channels in the 2.4GHz band which allows for the disruption of any devices operating on the 20MHz channels. This creates the "bad neighbor" effect as you have the Draft N devices stepping on the legacy product signals, and this has been one of the major issues with the current release of products.
In order to solve this issue, the current recommendation is to still permit the use of the 40MHz channels but to "ensure" a method of detecting legacy networks operating on the same channel and then having the 802.11n device fall back, even temporarily, to a single or different 20MHz channel in order to avoid a collision. Current Draft N products do this to a certain degree; ensuring this rule occurs is the preferred solution but it will render most of the current Draft N devices useless with the new standard. This change will require additional hardware capability or a silicon change to properly monitor and then switch channels on the fly to guarantee proper CCA is being performed. Also, 40MHz operation will have to be optional as this channel is not available for use in Japan and sections of Europe at this time.
We currently expect the differences to be resolved in time for a second draft to be completed this November with a letter ballot going out in January of 2007. If this is approved we can expect final ratification in late 2007 or early 2008 although we very well could see a Draft 3.0 in the spring if real progress is not made this winter. However, the products released that meet an approved Draft 2.0/3.0 specification are almost certain to be fully compliant with the final 802.11n amendment. Let's see how our first batch of Draft N products performs at this time.
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buleyb - Thursday, August 31, 2006 - link
After they got caught with those HTTP redirects in some of their routers in 2003, I really don't trust them. Plenty of good products from the company, but a router...I think not. Only use I see of them is to test the chipset they used...Hypernova - Thursday, August 31, 2006 - link
It this even legal?! The more I look at it the more it looked like a commerciallised ECM Chaffing weapon. This thing is devastating in an apartment.Frumious1 - Thursday, August 31, 2006 - link
I'm thinking of getting one just so I can nuke all the other wireless networks in an area. Hell, maybe I can set something up in a car and go cruising around town? Adds new meaning to the term "WAR Driving"! :DI <3 Gigabit Ethernet
lopri - Wednesday, August 30, 2006 - link
BTW it seems like Gary writes all AT articles these days. What's Anand doing? :Plopri - Wednesday, August 30, 2006 - link
I wish this article came out like 2 weeks ago. I've just bought 2 Linksys -N routers (future-proof, anyone?): one for home, one for the office. :( The performance has been terrible indeed. My system rather connects to a neighbor's unsecured network due to consistent drop of this Linksys junk. I'm just hoping the neighbor is either ignorant or nice enough to not cut me off the internet. Of course I can't even think of connecting my main rig without worrying disconnects.This got me a little curious. I'm assuming these different Draft N routers may not communicate at the "N" mode, but they are fully compatible if you select the "G" mode. Are they?
Talking about 802.11g, it'd be great if AT can test if these Draft N products have any advantage over current 802.11g products. (like G to G vs N to N)
Works with Vista pre-RC1!
Gary Key - Thursday, August 31, 2006 - link
The compatibility is just not there across the (G/N) board yet. We do have new Linksys, NETGEAR, and D-Link routers/cards coming that are suppose to show improvements. If they do, I still think it will be incremental at best. The majority of firmware and driver changes have been for compatibility issues with throughput only increasing a few percent. Our next roundup will be a quick review of the new routers with a more in-depth look at compatibility. I will say at this time that the NETGEAR PC card worked better with the Linksys router than the Linksys PC card did most of the time.
Works with 5536 also. ;-) However, Linksys has not stated official support for Vista yet. :)
yyrkoon - Wednesday, August 30, 2006 - link
Is this what 802.11i turned into ? Was supposed to offer a range of up to 50 miles, non line of sights, with speeds up to 50Gbit ( I think) was over a year ago when i read about it in wired magazine . . .buleyb - Thursday, August 31, 2006 - link
802.11i was the security (WPA2) standard, you're WAY off with that. If you're thinking more like WiMAX (802.16...), then that's the fast wireless at distance, but still not what this article is about...gerf - Wednesday, August 30, 2006 - link
"Fast Ehternet network"I'm not concerned, as there were drafts of "G" put out before it was official. If you're so ancy to get "N" then go ahead. At least you'll be funding/encouraging further development.
Wesley Fink - Wednesday, August 30, 2006 - link
Corrected.