Tag Archive for 802.11n

| November 17, 2015
Comments Off on Sun Setting on Cat 5e

Sun Setting on Cat 5e

Sun Setting on Cat 5eThe sun is setting on the Cat 5e cabling standard. The long-standing standard defined how most commercial spaces around the world were cabled for nearly 20 years. Starting in 2017 Cat 5e will be considered obsolete for new installations following a decision by the ISO/IEC cabling standards body.

recommendation for Category 6AIn a recent blog post at CommScope (COMM), the ISO cabling standards body JTC1/SC25 WG3 working group agreed to raise the minimum horizontal cabling requirement. The new standard is stated in ISO/IEC 11801-2. Office space requirements change from Class D (Category 5e) to Class E (Category 6). It includes a recommendation for Class EA (Category 6A). Cat 6A will enable a smooth migration to 2.5, 5, and ultimately 10 gigabits per second (Gbps). In the drafts of 11801-5 (data centers) and 11801-6 (distributed services), the minimum requirement is already Class EA cabling.

Ethernet and IP communications everywhere

The original ISO/IEC 11801 standard enabled the explosive growth and mass deployment of Ethernet and IP communications everywhere. In its first edition, the author says the standard defined Class D balanced cabling based on Category 5 copper components. This standard offered an upgrade path from 10 to 100 megabits per second (Mbps) up to 100 meters. At that time, some experts and industry observers argued that 100 Mbps (100BASE-T) to the desk was overkill for the typical office user.

handful of cablesToday, 100BASE-T technology is in a rapid market decline. 100BASE-T is being replaced with 1000BASE-T (1 Gbps) according to the article. 1000BASE-T is commonplace for desktop and laptop PCs. It also benefits a wide range of other devices such as phones, cameras, and wireless access points (WAPs).

The 11801 standard now includes more cabling classes that were introduced to enable support of up to 10 Gbps. The new classes include Class E (Category 6), Class F (Category 7). Even more recently, Class EA (Category 6A) and Class FA (Category 7A).

Technology trends

According to the CommScope blog, a number of technology trends made ISO choose to upgrade the minimum recommendation for horizontal cabling in offices. Some of the trends recognized by the committee that are driving the adoption of speeds beyond one Captain Ethernetgigabit on the horizontal cabling include:

The rapid growth of BYOD is driving infrastructure upgrades to accommodate IEEE 802.11ac. As I have covered before, new IEEE specifications are being developed to accommodate 802.11ac wireless. 2.5GBASE-T is targeted at installed Class D cabling and 5GBASE-T is targeted at installed Class E cabling. It is expected that a sizable percentage of the installed base will be able to support the faster speeds, however, some installed Class D and Class E systems may require some mitigation steps.

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| November 7, 2013
Comments Off on 802.11ac Wi-Fi – Don’t Bother Yet

802.11ac Wi-Fi – Don’t Bother Yet

802.11ac Wi-Fi - Don't Bother YetThe new iPads are here! The new iPads are here! There’s no 802.11ac here! But that’s expected. Experienced Apple watchers know that Apple likes to let new radio technologies mature before they integrate them into their new idevices. So that means most enterprises can slow their plans to upgrade their Wi-Fi to the new standard according to Kevin Fitchard at GigaOM.

The new iPads are hereThe latest Apple (AAPL) tablet doesn’t sport the new soon-to-be-completed IEEE 802.11ac standard, even though Apple’s latest generation routers, PCs, and laptops all support it. GigaOM reports Apple is providing is a speed boost to the now thoroughly established 802.11n networking standard in the form of multiple-input multiple-output (MIMO) smart antenna technology. Like many Wi-Fi routers on the market, the iPad Air has dual antennas, allowing it to wend two parallel paths over the unlicensed airwaves. The MIMO implementation will double the speeds at which the iPad can access Wi-Fi networks, according to Apple.

The Wi-Fi Alliance only began certifying commercial 802.11ac devices in June, and even those devices only incorporate partial versions of the full 802.11ac spec. The IEEE isn’t expected to fully complete the standard until 2014. Very few smartphones and tablets have ac embedded as of yet, though the technology is making its way into consumer and enterprise routers and PCs, including Apple’s newest MacBooks and iMacs.

iPad AirBut waiting another year for 802.11ac-enabled iPhones and iPads also means we’ll probably have to wait another year before we see wide-scale adoption of the standard in public hotspots and access points. Unlike in the home, most outdoor and public Wi-Fi connections are made over mobile devices, not PCs.

In an interview with GigaOM, Boingo VP of corporate communications Christian Gunning said it hasn’t turned up 802.11ac in any of its hundreds of thousands of owned and managed hotspots yet, simply because it’s seeing very few devices with ac radios trying to access its network.

higher-powered 802.3at Power over EthernetFierceCIO‘s Paul Mah offers more reasons to delay the roll-out of 802.11ac. The advanced 802.11ac radio is more power-hungry than earlier iterations of Wi-Fi. So it will more likely need the use of the higher-powered 802.3at Power over Ethernet (PoE) to run 802.11ac with all its bells and whistles. It is possible that businesses still on 802.3af PoE (rb- Majority) may well have to incur extra infrastructure costs to deploy 802.11ac today. Mr. Mah contends that it is yet to be seen if improved 802.11ac chipsets will allow firms to stick with legacy PoE. (rb- For a refresher on PoE, check out these posts 802.3af and 802.3at)

Another consideration according to FierceCIO is clients. The handful of business-grade 802.11ac wireless APs on the market today typically support three spatial streams, which allows for a (theoretical) maximum data rate of 1.3Gbps in the 5GHz band. Though this is a significant improvement over 450 Mbps 802.11n, the dearth of 802.11ac client devices renders this a moot point. Some will argue that Apple did incorporate 802.11ac into the new MacBook Air laptops.  However, they did not include it in the new iPads, or the iPhone 5S and iPhone 5C smartphones. And with no smartphones or tablets equipped with 802.11ac capabilities today, this does make deploying it a rather pointless strategy for BYOD.

802.11ac "second wave"Finally, Mr. Mah points out that while 1.3Gbps is a good speed to have, we should keep in mind that 802.11ac does have a theoretical maximum speed of 7 Gbps. A “second wave” of 802.11ac that implements four or more data streams for much faster speeds should be arriving in the second half of 2014. He says current signs are that this second wave of 802.11ac devices might need new processor chips–which means you will have to buy new 802.11ac hardware to benefit.

GigaOM’s Fitchard stresses Apple’s influence when it comes to popularizing new technology, he says the iPhone and the iPad’s reach shouldn’t be underestimated. As an example, new Passpoint-certified phones have been out for more than a year, but it wasn’t until Apple started offering support for Passpoint’s automatic login technology in iOS7 that the wireless industry took notice. It was only after Apple made iOS7 publicly available, that Boingo started Passpoint trials.

rb-

I’m not saying 802.11ac is a bad thing, but enterprises need to ignore the hype cycle and make decisions that are best for them and not the multi-billion dollar networking industry. IMHO 802.11ac is still immature, there are few devices out there that can fully take advantage, the full feature set is not fully implemented in silicon and you finished the upgrade to 802.11n yet?

What to do?

What does your wired network look like? Are you still connecting your AP’s at 100 Mbps? That is a bottleneck with 802.11n.

Do you have enough juice? What is your PoE status? Do you have enough PoE+ ports? Are they being used for just an access port – wasting the extra costs of a PoE port?

Both switches cost money, is there a budget available for these items or is IT going to spend an operational budget to address a structural issue?

 

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| September 11, 2009
Comments Off on 802.11n Ratified -Yawn

802.11n Ratified -Yawn

802.11n Ratified -YawnToday (09-11-09) the IEEE Standards Board has ratified the IEEE 802.11n™-2009 amendment. This vote ends a seven year effort to, “enable rollout of significantly more scalable WLANs that deliver 10-fold-greater data rates than previously defined while ensuring co-existence with legacy systems and security implementations” according to the IEEE. The 560-page document describing 802.11n will be published in mid-October 2009. Bruce Kraemer, Chair of the IEEE Wireless LAN Working Group said in a press release,

The performance improvements achieved via IEEE 802.11n stand to transform the WLAN user experience, and ratification of the amendment sets the stage for a new wave of application innovation and creation of new market opportunities.

IEEE logoKelly Davis-Felner, marketing director of the Wi-Fi Alliance (WFA), told Network World that “The core interoperability is totally preserved with the [existing] draft certification program.” Ms. Davis-Felner says,  ”Existing draft-11n products should work seamlessly with future products based on the final standard. No existing products will have to be retested in the updated certification program.

Today’s ratification marks the high-point for other 802.11 wireless products. This approval will green-light the development and deployment of 11n products in the enterprise. There is no longer a reason for firms deploying greenfield WLAN’s to roll put anything but  802.11n. The WFA expects 11n shipments to rise to 45% of all 802.11 shipments in 2009. Reaching 60% in 2012 based on data from market researcher ABI Research. But how long will 802.11n last?

WiGig logoNetworkWorld is reporting that Microsoft (MSFT), Intel (INTC) and others have formed the Gigabit Wireless Alliance (WiGig). WiGig is to create anew wireless specification with a data speed of up to 6Gbps. WiGig is also actively involved with the IEEE’s 802.11ad task group. And if WiGig is to slow. James Buckwalter, a professor at the University of California San Diego has developed s a silicon-based amplifier that transmits 10Gbps wireless in 100 GHz frequency bands according to NetworkWorld. Coverage could also be over a kilometer, which beats traditional WiFi‘s 100 meters.

rb-

The formal ratification of the IEEE 802.11n standard is a good thing. However we have recommended that clients seriously consider this technology in greenfield installs with Wi-Fi approved 802.11n since the beginning of the year.

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers and anything else that catches his attention since 2005. You can follow him at LinkedInFacebook and Twitter. Email the Bach Seat here.

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| September 13, 2008
Comments Off on Gigabit Wi-Fi

Gigabit Wi-Fi

Gigabit Wi-FiDespite the fact that IEEE 802.11n 100Mbps wireless LAN standard has not been approved yet, the IEEE Very High Throughput (VHT) Study Group is about to launch a new project, gigabit Wi-Fi.

The study group is looking at gigabit Wi-Fi in two frequency bands, high-frequency 60GHz for relatively short ranges and under-6GHz for ranges similar to that of today’s WLANs in the 5GHz band, 802.11a and 11n. The IEEE proposal suggests a completion target date of 2013 for the standard. Big wireless players such as Atheros, Broadcom, Intel, Marvell, Motorola, and Nortel are reported to be active in the study group.

In a Network World article, IEEE readies launch of gigabit Wi-Fi project “The basic idea right now, and that’s subject to change, is that the ‘maximum mandatory mode’ on a single link would be [at least] 500Mbps,” says Tushar Moorti, director of systems architecture for chipmaker Broadcom‘s (AVGO) WLAN Business Unit. “But the further requirement is that [an access point] device that supports VHT would be able to sustain multiple links, so the aggregate would be over 1Gbps.”

“It’s the next-generation technology for wireless LAN, in the same sense that 11n was the follow-on to 11a/b/g,” says Broadcom’s Moorti.

According to the proposal, VHT “will allow a corporate or home user to roam from high-throughput dense cells to wider area networks in a seamless manner, while maintaining full support for the installed base security, management, diagnostics, and backbone infrastructure.” VHT will also be backward compatible with the full range of existing and emerging 802.11 standards, such as 11i for security, and 11s for mesh networking.

 

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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