802.11ad - What is WiGig?

November 15, 2018 at 8:00 AM

 

As the evolution of wireless technology continues, so does the development of new wireless standards. Next on the list is 802.11ad – also known as WiGig. Most of the emerging wireless standards have been a steady progression, but this one has some fundamental changes planned. Here, we’ll explore what WiGig is all about.

 

As far as speed is considered, WiGig will support data rates up to 7 Gbps, though real data rates might be less than this maximum limit. WiGig operates on the 60 GHz frequency, as opposed to Wi-Fi which uses the 2.4 to 5 GHz bands. This should result in much less congestion compared to Wi-Fi’s congested frequencies and WiGig also shouldn’t have as many interference issues as there are on the 2.4 GHz Wi-Fi band. Plus, it utilizes a narrow signal beam to reduce attenuation. But with a range of only around 30 feet and the 60 GHz signal unable to penetrate obstacles, WiGig is limited to one room with a clear line of sight from the transmitter to the receiver.

 

Instead of MIMO, WiGig uses multiple antennas for beamforming, which helps reduce attenuation. WiGig beamforming utilizes a phased antenna array that provides a signal power boost in whichever direction it is aimed. One of these access points can have as many as 64 antennas to generate up to 128 beams.

 

For multiple access, Service Period (SP), a new channel access mode, has been added to WiGig. This creates transmission schedules that are assigned to clients by access points. Time on the channel is organized into intervals called Beacon Intervals (BI). SP access is projected to be the preferred channel access in WiGig.

 

WiGig will also introduce a new mode of operation called PBSS. With PBSS, there is a central coordinator, like an access point (AP), but it allows clients to communicate while surpassing the AP. Clients can also talk to one another directly with this. PBSS is designed for applications that stream HD video to a display, because it doesn’t require the video to be sent through the AP, but it can still connect through the AP in other areas of the network.

 

In addition to 2.4 and 5 GHz, future Wi-Fi devices are expected to include 60 GHz radios and are expected to be capable of seamless transfers between the bands. Not only is WiGig bringing something new to today’s wireless networks, but it will add extra capability to future applications.

 

What You Need to Know About 802.11ay

November 9, 2017 at 8:00 AM

 

Products for 802.11ad have only begun hitting the market in the past year, and already the IEEE is working on improvements in the form of 802.11ay. This new and improved standard will expand upon 802.11ad technology by delivering faster and longer-range Wi-Fi networks. Expected to be released in late 2019, 802.11ay will increase bandwidth and improve the reliability and robustness of the unlicensed 60GHz millimeter wave spectrum. It will be designed to improve throughput, range and use-cases.

 

The next generation wireless standard promises significant improvements upon the 7 Gbps speed and 10-meter distance capabilities of 802.11ad. 802.11ay will be capable of transmission rates of 20 to 30 Gbps and distances of 30 meters with 11ay-to-11ay device setups. When channel bonding, MIMO and additional capabilities are added into the mix, it’s possible that 802.11ay will deliver speeds closer to 200 Gbps and extend transmission distances up to 300 meters.

  

As an amendment for improving the performance of the 802.11ad standard, 802.11ay will support the same broad applications and be backward compatible with the 802.11ad standard. 802.11ay will focus on new applications for mobile offloading, wireless docking and display connectivity. It will also be ideal for fixed point-to-point or point-to-multipoint outdoor backhaul applications. 802.11ay might also be used in internal mesh and backbone networks, to provide connectivity to VR headsets, support server backups and manage cloud applications that require low latency. The main targets for 802.11ay are DisplayPort, HDMI and USB connectivity, fast synch as well as short-range, high-bandwidth connectivity to TV and monitor displays. It could even act as a replacement for HDMI and USB and make the equipment more intuitive.

 

802.11ay is primed to pack a punch with super-charged 20 Gig speeds and greater transmission distance. This revolutionary IEEE standard will surely break records and set the standard for future wireless technology.

 

Standards Showdown: 802.11 Standards Side-by-Side

July 20, 2017 at 8:00 AM

 

The IEEE is almost always working on another new amendment to the 802.11 Wi-Fi standard. We now have nearly as many 802.11 standards as there are letters in the alphabet, and keeping them straight can get confusing. Fortunately, we’ve compiled a comprehensive list of all of the 802.11 standards, old and new, for easy reference. 

 

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