Tag Archive for BPL

| April 21, 2019
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Will 5G Save Broadband Over Power Line?

Will 5G Save Broadband Over Power Lines?5G could resurrect broadband over powerline (BPL). At least that is the hope of AT&T (T). For those who don’t remember the heady rise of BPL, it grew out of an attempt to use the existing electrical grid to deliver broadband everywhere without having to build infrastructure anywhere. A few broadband over power line systems with paying customers got off the ground but they were all gone by the end of 2010.

ATT logoAT&T started testing BPL renamed Project AirGig in 2016. And now in 2019 FierceWireless is reporting AT&T is planning more trials of AirGig that will involve 5G. The telecom behemoth is also working with vendors and technology partners to build commercial-grade 5G equipment for those trials.

Hank Kafka, vice president of access architecture and standards at AT&T, told FierceWireless the company isn’t ready to offer details but said Project AirGig is making progress and it will be a very complementary technology to 5G. He told the author that “5G is very high on that list.”

Specifically, AirGig could be used to extend 5G millimeter wave (mmWave) signals beyond their current range. The article says AT&T has launched a mobile 5G service in 19 markets so far using mmWave spectrum, but using that spectrum has drawbacks because it has a limited range compared to lower spectrum bands.

Air5G small cellGig technology includes a radio distributed antenna system (RDAS) and mmWave surface wave launcher. The RDAS reconstructs signals for multigigabit mobile and fixed deployments. The mmWave surface wave launchers can power themselves using inductive power devices without an electrical connection. These devices then create a high-speed signal that travels along or near the wire, providing a broadband connection.

I covered AT&T’s 2018 AirGig trial here. In that trial with Georgia Power Company, the telco used LTE as the transport technology.  Mr. Kafka explained that in 2018 suitable 5G equipment was not available. “At the time of the trial 5G equipment was large and bulky,” he said. Now that 5G is commercially deployed in some markets AT&T is working with vendors to get the right type of gear for the new trials.

Not only could AirGig potentially extend the reach of 5G, but it could also be used as a backhaul technology. “If you set up an architecture where AirGig is connecting to 5G radios, it is acting like backhaul … And you can get gigabit speeds and beyond.”

5G backhaulHe also said that commercialized AirGig would be a good fit for small cells because of the way it is architected. In other words, a wireless signal could travel down the power line and handoff to small cells or be used to backhaul wireless traffic from small cells. This could be profitable for carriers who are getting resistance from municipalities over the siting of their small cells for 5G. AirGig might allow small cells to be co-located with utility infrastructure.

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Apparently, AT&T doesn’t have plans to commercially deploy AirGig in the near term, but it has rolled out 5G service in 19 U.S. cities that could benefit from the goals of the BPL AirGig experiment including:

  • CA: Los Angeles, San Diego, San Francisco, San Jose
  • 5G cell phone userFL: Jacksonville, Orlando
  • GA: Atlanta
  • IN: Indianapolis
  • KY: Louisville
  • LA: New Orleans
  • NC: Charlotte, Raleigh
  • OK: Oklahoma City
  • TN: Nashville
  • TX: Austin, Dallas, Houston, San Antonio, Waco

Maybe AirGig is on the slow track because there aren’t any smartphones that can use it yet. The Verge points out that AT&T’s only available true 5G device is a mobile hotspot that can’t be purchased in stores.

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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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| September 24, 2018
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AT&T Still Trying BPL

AT&T Still Trying BPLFresh off its dismantling of net neutrality and its drunken binge of bribing its staff, AT&T (T) has launched two field trials of its AirGig technology, fueling hopes it can gain broader acceptance of its version of the failed broadband over powerline (BPL) technology. The AirGig plan, as AT&T explained in 2016, is to use millimeter-wave radio signals (above 24 GHz) to travel along power lines. Radios on the power lines would regularly refresh the signal as it travels.

At&T kogoFirecetelecom reports that the first trial was with an electricity provider outside the U.S., and the second trial is underway with Georgia Power. Stopping short of revealing a service rollout plan, AT&T will take what it learns from the trials and continue to develop AirGig. Based on its evaluation of the current trials, AT&T will look at expanding more advanced BPL technology trials in other locations. AT&T told Firecetelecom that while “there’s no timeline yet for commercial deployment, we’re encouraged and excited by what we’ve seen so far.”

The service is bullish on AirGig. The telco is touting AirGig’s potential to deliver 1 Gbps speeds via a millimeter-wave signal guided by power lines. Firecetelecom says AT&T’s Ultimate goal with AirGig is to accelerate broadband deployments.

Broadband over power line (BPL)While there have been plenty of BPL failures, AT&T claims AirGig is different. They say it is more efficient than earlier generations of BPL because it runs along, and not within, the medium voltage power lines. The technology differs from earlier BPL technologies, which traveled with the current.

In order to roll out Airgig, AT&T had to develop several new BPL innovations to distribute signals from the power lines to homes and businesses. AT&T labs developed a Radio Distributed Antenna System (RDAS), which uses low-cost plastic antennas, aka mmWave surface wave launchers, along with inductive power devices, which receive power without direct electrical connections (for simplified installation).

The RDAS will reconstruct signals from multi-gigabit mobile and fixed deployments. Those data signals are then transmitted using mmWave over power lines. The mmWave surface wave launchers are inductive power devices that create multi-gigabit signals that travel along or near the medium-voltage wire, not through it.

Maxwells EquationsThe data signal uses the existing pole infrastructures mostly line-of-sight wire paths act as a waveguide that channels the signal and improves the transmission quality, according to Mark Evans, a director on AT&T’s AirGig team. A waveguide is a structure (like an electrical wire) that restricts how much waves can expand over distance, thereby minimizing energy loss. AT&T radio technology engineer Peter Wolniansky explained in a demo that electromagnetic physics make it work,  “The signal energy clings like a glow to this wire, … It’s bound by Maxwell’s equations to stick to this wire.

Millimeter waves are radio waves from 24-300 GHz. The benefit of using these high-frequency bands is access to high bandwidth, between 100-800 MHz, which is 20-100x more than today’s common cellular systems.

AT&T plans to put wireless stations periodically along the route to provide the last-mile connections. For that last communication link to a home or business, AT&T will use more conventional wireless equipment. Customers would use 5G CPE equipment to connect to the AirGig data flow. Once the CPE has received the signal, it can use Wi-Fi (802.11ad or 802.11ac) or an LTE femtocell unit to connect to the end users’ smartphones, tablets, laptops, television, autonomous vehicles or other IoT devices. CNet quotes Mark Evans, a director on AT&T’s AirGig team.”We’re aiming to be ready to deploy it commercially in the 2021 timeframe.

CNET also quotes Gordon Mansfield, AT&T’s vice president of converged access and devices who says they are moving forward. He confirmed that AT&T has contracted with manufacturers to build more refined hardware for a new round of AirGig testing most likely in 2019.

At&T Airgig eggsA key part of the AirGig technology for AT&T is that it is easy to install. Antenna modules — AT&T calls them eggs — clamp in pairs on the power line extending each direction from the power pole. The devices can power themselves via inductive power devices without a direct electrical connection. The eggs configure themselves automatically, and the early test showed it takes people 10 minutes to hook up to the network, said AT&T Chief Technology Officer Andre Fuetsch.

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Kudos to AT&T for trying to figure out how to get everybody else to do their work just like Tom Sawyer..

AT&T can use the existing electrical right of way to bypass local municipality requirements, a long-running tactic of AT&T.

AT&T does not want to be in the business of connecting customers. They want to use the electric company’s infrastructure for free because fiber optic cable is expensive to bury underground or string along telephone poles.

AT&T will be using totally free unlicensed spectrum to sell access back to us at a huge profit.

They don’t even want to pay for electricity to run the equipment. They are using inductive power right off the mainline so it is not metered, which means everybody will have to pay.

 

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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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| October 7, 2016
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AT&T Tries Broadband over Powerline

AT&T Tries Broadband over PowerlineIt’s alive. It’s alive! BPL has risen from dead. Longtime readers of the Bach Seat, know the history of Broadband over Powerline. I covered it many years ago here, here, and here. Imagine my surprise when there were a number of articles popping up all over the interwebs touting mega-telecom AT&T’s (T) try at BPL 10 years after everybody else gave up on the technology.

Broadband over PowerlineComputerWorld described this latest incarnation of BPL from AT&T as a low-cost, high-speed wireless internet technology. This time Broadband over Powerline relies on plastic antennas positioned along medium-voltage power lines and not through the conductive materials inside the power lines. FierceTelecom says that AT&T will attach the plastic antennas to the power lines and serve as a mesh network to distribute signals to homes and businesses. The Project AirGig low-cost plastic antennas and devices will regenerate millimeter wave (mmWave) signals. Millimeter-wave technology relies on electromagnetic waves that are longer than x-rays but shorter than radio waves (they are found in the 10 mm to 1 mm range and are also known as extremely high-frequency waves according to New Atlas. The EHF waves can be used for 4G LTE and 5G multi-gigabit mobile and fixed deployments.

John Donovan, chief strategy officer and group president of AT&T technology and operations, told FierceTelecom that Project AirGig delivers last-mile access without any new FTTH technology and is flexible enough to be configured with small cells or distributed antenna systems.

Broadband over PowerlineTo test the technology, AT&T is looking for a place somewhere in the next year with a favorable regulatory environment, since the carrier would need to partner with an existing electric utility. John Donovan, chief strategy officer for AT&T said the trial could be in an area where existing broadband is expensive, even in the U.S.

The AirGig project relies on over 100 patents, according to an AT&T statement. There is no direct electrical connection to the power lines, although network components could receive their needed power through inductive wireless electricity from the near by power lines, AT&T Chief Technology Officer Andre Fuetsch explained to Computerworld.

ATT logoAT&T said the testing will decide what frequency AirGig will use for commercial deployment, which could occur sometime around 2020 after the carrier rolls out 5G wireless. The frequency AT&T uses will affect the range of the signal and the speed, as well as whether it is over a licensed or unlicensed band. This decision is important if AT&T plans to use BPL as another weapon in its fight with Google Fiber. Earlier versions of Broadband over Powerline were incapable of delivering the Google (GOOG) promised Gigabit of Internet access.

“It’s a transformative technology that delivers low-cost and multi-gigabit speeds using power lines,” AT&T’s Donovan said, “There’s no need for enhancements for new towers, and it’s over existing infrastructure.”

Google (GOOG) promised Gigabit of Internet accessAirGig has already been tested in outdoor locations on-campus settings. “We’ve had it up and running 4k video and cameras on campuses for quite some time,” Mr. Donovan said.

Besides using the AirGig technology as an alternative broadband service delivery option, for urban, rural, and under-served markets AT&T wants to convince the electrical utility industry to apply AirGig technology to their unique needs. ComputerWorld says utility companies would be able to use the technology to help spot problems on their power lines from something like a downed tree or cracks in the cable sheath.

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New Atlas points out that earlier this year, a millimeter-wave technology system set a new world record for wireless data transmission by sending data at 6 Gbps. The technology is also showing up in other applications, including heart-rate monitors, car-safety systems, and luggage scanners.

AirGig could be profitable for AT&T. If they can make a deal with an electrical company, they can avoid expensive make ready. Which Google Fiber is struggling mightily with. By using power lines, AirGig avoids the cost of digging trenches to lay fiber optic cable.

Still, questions remain about how this version of Broadband over Powerline will do in the real world.

  • What impact will heavy rain, snow or ice have on the signal?
  • What if a tree branch falls on a power line or the lines are swinging in the wind?
  • Since mmWave transmissions need a direct line-of-sight between antennae, what happens when critters like birds or squirrels decide to perch on the antennae? Will that lead to an outage?

The ham radio lobby will likely be up in arms again when they find AT&T still likes the idea of BPL in the 30-300 GHz bands. The ARRL was a key player in killing BPL 1.0.

 

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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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| April 9, 2010
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First Broadband Over Powerline Net Dead

First Broadband Over Powerline Net DeadThe Manassas, VA broadband over powerline (BPL) network is dead. DSLReports cites the chief protagonist of the BPL drama the American Radio Relay League (ARRL) which won when on April 05, 2010, the Manassas City Council unanimously voted to pull the plug as of July 01, 2010.

Broadband over powerline was once praised as the third alternative to the telco’s and cableco’s stranglehold on the broadband market. Former FCC chief Michael Powell called the Manassas installation, “the pinnacle of broadband achievement” just five years ago. In the meantime increased broadband speeds and the unwillingness of utilities to become broadband providers doomed BPL.

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International Broadband Electric Communications (IBEC) to play on. They won’t have to deal with that pesky FCC or end-users since they can sell their broadband over powerline products to utilities as part of the U.S Department of Energy’s $3.3 billion smart grid technology development cash give-away grants.

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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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| December 27, 2009
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BPL Clings to Life

BPL Clings to LifeMarketwire recently reported that OneFi Technology, Inc. (PINKSHEETS: ONFI) announced the installation of WiMax/BPL Technology under the ARRA. The installation will occur in the 600 square miles Hogback Region of the Navajo Nation and will begin in January 2010.

Tom White, CFO of OneFi who is managing the project, said in a press release, “We are delivering the network to meet the broadband internet needs of the Navajo community and the installation will be a model for the other Native American communities.” OneFi officials said that the company would use the model developed with this project to expand its commitment to other Native American communities and rural areas. The contract is valued at $20 million when installed.

The application made under the Broadband Technology Opportunity Program (BTOP) states that a fully redundant self-healing hybrid WiMax / BPL broadband network will be developed.  The network architecture uses microwave delivered from the backbone to the local community. At the community level towers are installed so that WiMax can be broadcast throughout the total area. Base stations are used to receive and insert signals in power lines that deliver BPL broadband to the user.

The firm’s press release states that OneFi is a WiMax company developing broadband networks that are capable of 4G (4th Generation) compatibility. OneFi Technology’s focus is on rural communities and developing countries. WiMax is a wireless technology for the delivery of broadband internet.

In an article on TMCNET it seems that the firm requires payment upfront to start the job, “Once the company receives the funds, it said it will deploy its qualified engineers to the client’s area to layout the project and complete engineering working drawings. They expect this step to be completed in 45-60 days. The next step is the installation, and OneFi estimates this to be completed within 60 – 90 days, depending on the complexity of the project.

Apparently, this type of arrangement did not work out very well for the City of Villa Park, CA. In July 2008 OneFi installed a WiMax-WiFi communications system in the city. The OneFi Technology network’s broadband signal was to allow the citizens of Villa Park to access the internet at speeds up to 104 Mbps. However, in March 2009 City staff recommended that the City Council terminate the license agreement (with OnFi) based on lack of performance.

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BPL still clings to life. Maybe they can make it work in the middle of the desert where the giant antenna effect doesn’t matter too much. The installing vendor seems to have a checkered financial and performance past. We always take a look at the size of the firm compared to the size of the job. A job that is a reach for a firm may work out alright, but maybe not because of financing or staff issues. Good luck to the Navajo and us as taxpayers since we are footing the bill for this project.

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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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