First Canadian High Speed Internet over Power Grid

oO0(MjB)0Oo writes "Sault Ste. Marie, a northern Ontario town, is going to be the first installation of BPL (Broadband Power Line technology) in Canada. As reported in the Toronto Star, wireless access points will be set up along medium-voltage power lines, providing roaming capability throughout the city to all users."

hmmmm

[Machine9]

I sure hope no assembly on the part of the customers is required, and certainly nothing that involves putting the plugs on any cables.

There's sure to be at least one moron that'll fry himself.

Re:hmmmm

[WeblionX]

Isn't that called natural selection?

Not quite...

[DJPenguin]

It's not "over the power grid" in the way you might think, but just WAPs placed along the grid, connected via a fiber backbone. No IP is going along the power lines...

Still great though :)

Re:Not quite...

[mindstrm]

"These wireless "boxes" convert data so they can be sent through the grid and on to PUC's fibre-optic backbone, which connects to the Internet. Home computers equipped with 802.11b or "Wi-Fi" wireless access cards and within 150 metres of these access points will be able to use the service."

In what way is the headline inaccurate? This is the first semi-large test of using the power grid as a network distribution medium.

Re:Not quite...

[pyser]

Actually the article does say the data is put on the medium-voltage distribution grid, which is the transmission medium between their fibre backbone (presumably at the substations) and the WAPs mounted on hydro poles in neighbourhoods. They're just not running it on the 240v drop to the customer as in some implementations.

Re:Not quite...

[pridkett]

Well, it's not a stick ticker, but it is CAT-5 in a power outlet. Have fun kiddies.

Re:Not quite...

[tzanger]

To be exact: It's using the medium voltage grid to transport data to the NOC. You access the internet via 802.11b access points on the poles.

From the article:
These wireless "boxes" convert data so they can be sent through the grid and on to PUC's fibre-optic backbone, which connects to the Internet. Home computers equipped with 802.11b or "Wi-Fi" wireless access cards and within 150 metres of these access points will be able to use the service.

So basically what they're doing is something I did over 10 years ago -- power grid data transmission -- this isn't new, and it isn't cool; it's just over medium voltage. They're not passing data through the pole pigs into your outlets; they're avoiding that because they are not designed to transmit data. Once you're on the neighbourhood grid there are no transformers until the substation; They are essentially modulating high speed data over copper lines. Nothing new, except for the voltages involved. And isolation takes care of all of that. :-)

We'll know who to blame...

...next time the lights go out in NYC. Some evil Canadian hacker will uncap their powerline modem and lights will dim all along the US east coast.

What about do it yourself?

[emptybody]

Couldn't a private individual use their own gear to run their own ISP over PowerLines?

What prevents this?

Re:What about do it yourself?

[thedillybar]

They are using the medium voltage lines for transmitting the data. I'd guess that both the WiFi boxes and the Internet->Power Grid box are both on medium voltage lines.

Sending the data to the transformers (and onto the low-voltage line that enters your house) is probably very difficult and problematic because of the effect of the transformer on the signal. If the data could easily pass through the transformer, you'd think the modem would just plug into a wall socket rather than using WiFi.

Thus, if you had the technology, you could send data through the medium voltage lines if you climbed the pole and hooked it up, but it's very unlikely that the current technology is able to send data through the transformer.

Re:Uh oh!

[Neppy]

I believe you mean Canadian Bacon radio.

Awesome!

[Xoder]

But I have to wonder whether this will increase the noise on the powerlines. The frequency used on the lines is not given, but don't we have enough 2.4 GHz noise in the air? Do we need some bleeding into the powerlines as well?

Of course, that could be my "the Commons is being raped"-foil hat again.

Re:Awesome!

[ProfMoriarty]

Actually, they are using between 5 - 70 Mhz .... since nothing important(*) resides down there ...

(*) nothing important does NOT include:

• shortwave radio (7-14 Mhz)
• older cordless phones (~49 Mhz)
• CB Radio (~29Mhz)
• Several Amateur Radio bands (1.8, 3.5, 7.0, 10.0, 14.0, 18.068, 21.0, 24.9, 28.0, 50.0 Mhz)
• Military communications (several)

Re:Awesome!

[bonnyman]

The frequencies on used all of the commercially deployed powerline broadband systems are in the 2 to 80 MHz range. The Amperion system uses these lower frequencies (often confusingly referred to as HF or high frequency) to distribute the signals across the last mile --except for the last 100 feet or so. It then uses Wi-Fi to make the last connection. The Amperion unit hangs on the medium voltage power line, getting its' power from the same line. This unit converts the HF, last mile power line signal to a Wi Fi signal for transmission to the house nearby.

The only signal deliberately injected on to the power line is the HF signal which is much, much lower than a 2.4 GHz. Wi-Fi signal.

Even using so-called HF (high frequency) signals (3 to 30 MHz.) on power lines is tricky -- that's one reason we didn't see this technology 10 or 20 years ago. The signals attenuate rapidly and need regeneration every several hundred or thousand meters. To the extent that the power line picks up some of the Wi-Fi signal, attenuation is much higher at 2.4 GHz.

Most radio frequency concerns associated with these systems focus on possible interference to military and amateur radio operations in the HF range, not other 2.4 GHz. devices.

Re:Awesome!

[michael_cain]

Actually, they are using between 5 - 70 Mhz .... since nothing important(*) resides down there ...

The powerline stuff operates at quite low total output power levels. In the US (can't speak to Canada, although the rules are probably similar in nature), the regulations call for you to be below particular radiated power levels at distances of 1m and 3m from the conductors -- several companies claim that their powerline stuff meets these rules. Recent versions of the powerline gear uses OFDM as the modulation scheme, which does allow for avoiding particular spectrum regions where there are interference problems -- it's still not perfect, of course, but they can dodge the amateur radio bands in areas where people are sensative to even low levels of interference.

I find the claims that they're going to get reliable 150m coverage out of unlicensed 802.11b to be more dubious. For most people, there's a minimum of one outside wall between the PC and the WAP, and possibly more depending on the location of the medium-voltage power lines. If they only get 50m coverage, they're going to need a LOT more devices, greatly increasing their costs.

radio comunications

this can really disrupt wireless communications notably ham commmunications, power lines make for big antenas

Next step.

[Omni+Magnus]

The next step is for them to figure out how to send broadband throught the sewer system.*

Dilbert reference

Re:Next step.

[tomalpha]

Not just Dilbert - http://www.theregister.co.uk/content/22/35334.html

IP over sewage.

Interference

[nate1138]

In remote areas like this, shortwave radio is still in pretty heavy usage. I'll be this pilot program will be grounded in short order ;-)

Read it again.

[mindstrm]

IT is completly "over the power grid".

The "fiber optic backbone" means their network center.

The line says "From wireless, converted to be transmitted OVER THE GRID to the company's (PUC) fiber backbone to the internet."

It is *precisely* a test of data over power lines.

Re:Read it again.

[lukewarmfusion]

"Wyant is quick to point out PUC won't be using power lines to deliver Internet access directly into the home. Instead, the company is installing wireless access points along its medium-voltage lines in densely populated residential areas.

These wireless "boxes" convert data so they can be sent through the grid and on to PUC's fibre-optic backbone, which connects to the Internet. Home computers equipped with 802.11b or "Wi-Fi" wireless access cards and within 150 metres of these access points will be able to use the service."

This quote doesn't sound like they're sending network data over a power line - it sounds like they are using their existing power line locations to add external WAPs that tap into a fiber network. If they were using the existing power lines, I would expect them to be able to sell/rent boxes that convert the signal from your electrical outlet to an ethernet jack. That's why it sounds misleading - if they're not really sending data over their powerlines, and instead are sending it via another method. But maybe I'm just misreading the article (which I finally got to).

Re:Read it again.

[mindstrm]

The fiber network is not everywhere.... do you think they have fiber on every pole? (fiber is usually buried, btw)

Backbone == NOC. They are using medium voltage power lines as a large network between their backbone and the access points... the article headline, despite being on slashdot, is acccurate.

Re:Read it again.

[scampiandchips]

When they install power lines the sometimes include an optical fibre cable inside the cores sheathing, so your have say 3 huge copper conducting cores and a skinny little optical cable as well, all wrapped up by a protective PVC sheath etc.. It doesn't cost a lot extra as its installed and manufactured at the same time as the power cable. Its this otical ring theyre tapping into with their wireless network.

Re:Read it again.

[bonnyman]

"When they install power lines the sometimes include an optical fibre cable inside the cores sheathing, so your have say 3 huge copper conducting cores and a skinny little optical cable as well, all wrapped up by a protective PVC sheath etc.. It doesn't cost a lot extra as its installed and manufactured at the same time as the power cable. Its this otical ring theyre tapping into with their wireless network."

The above is incorrect. We specialize in fiber cable systems for power utilities. (See the Fiber Planners web site for more info on what we do)

Power utilities build fiber into their conductors in 3 situations:

1. They use optical groundwire (OPGW) on high voltage transmission lines between cities. This is an aluminum conductor with fibers in it that is placed above the power conductors and used as combination lightning guard and communications cable. This is widely deployed.

2. On the latest high voltage underground cables, they may use one fiber as a temperature sensor. These cables are not widely deployed. There are real issues associated with adding anymore fibers to that kind of cable for communications -- it's cheaper to just bury a separate fiber-only cable nearby, unless you're deploying an undesea cable, which leads to #3.

3. A few undersea power cables (such as might feed an offshore island) may include fibers for communications.

Most fiber cable deployed by power utilities is all-dielectric (contains nothing conductive) and hung or buried near the conductors on medium voltage power distribution systems.

The Amperion system in Sault Ste. Marie uses HF radio signals propagated down PUC's standard metallic power conductors to Wi-Fi units outside subscribers' homes. The Wi-Fi unit then takes that HF signal and retransmits a Wi-Fi signal through the air the last 100 feet or so to the subscriber.

Best news yet?

[mr.+methane]

... for a $1 fee, you can inflict a painful electrical shock to anyone else on the network!

RF interference?

[iantri]

How are they going to deal with RF interference issues? Canadian ham radio operators have very similar rights to those in the US.. the CRTC keeps its regulations pretty similar to the FCC.

Also, will this cause any other sort of interference? My TV reception (over antenna) is already crap because of Ontario Hydro -- I live within 0.5km of the high-voltage pylons and my TV reception is terrible on VHF because of it.. (during the huge power outage last summer, I was able to very clearly receive stations all through New York state)

Interesting...

[Grym]

What I find most interesting is how the last 150 meters to the customer is done via 802.11b wireless. While the guy is right in saying that it will provide roaming capabilities, this represents a huge security (or lack thereof) issue.

Soon Canada will become the true safe haven for all pot-smokers and hackers, it seems. Better plan a roadtrip, boys.

-Grym

Read what you posted.

[mindstrm]

These wireless "boxes" convert data so they can be sent THROUGH THE GRID...... and onto the company's backbone.

GRID == power grid.

The backbone is not everywhere.. the "backbone" is just somefiber link they have at a NOC to some other isps.

They are indeed using power line data transmission for this... that's what the entire project is about, and the only reason it is significant.

Amperion.com

[Linus+Sixpack]

The company supplying the technology is called Amperion. Their website has a description of the kit probably used in the article.

http://www.amperion.com

Re:This technology would not work here.

[gooberguy]

Wrong. If you had read the article, you would know that the power company has put 802.11b access points on their power line towers. The access points are connected to the internet over the power grid, but the customers use 802.11b to get data from their computer to the power lines. There is still the possibility of people stealing bandwidth, but if the network is set up properly, stealing would be a lot more complicated than just running a wire.

Candle lit

[savagedome]

So, instead of watching TV in candle light, I can surf in candle light. Awesome!

Oh... wait a sec

No shielding

[arrianus]

For those not following the broadband-over-power-lines debate, the basic problem is lack of shielding. Cable modems use coax cable, where the outside of the coax acts as a shield, and so very little RF gets out. The wires carry broadband internet, but don't interfere with anything. In the case of DSL/telephone, you have twisted pair (or at the very least, two wires running very close to each other). They effectively shield each other (meaning that each generates a field in the opposite direction, and the fields cancel out if you're not too close to the wire). More RF gets out than coax, but it's still negligable compared to desirable transmissions. In the case of power lines, they are, depending on power line configuration and frequency, either a significant fraction of a wavelength apart, or several wavelengths apart. In some directions, you get destructive interference, but in others, you get constructive interfence. In the directions of constructive interference, you have a lot of signal being broadcast. As a result, they act as a directional antenna, which interferes with anything on the same wavelengths as power-over-power-lines.

Signal strength goes a square of distance. That means that if I have an antenna running 10 meters from my house, and I'm trying to tune into a station 10 kilometers aways, that station needs to be putting out a million times more power than the segment of powerline running next to me. Ouch.

This probably won't interfere with typical consumer applications (television, FM radio), because if it did, there would be significant political reprecussions, and it would be banned (in other words, it's probably engineered to operate outside of those frequencies). On the other hand, according to the ARRL, it very likely will interfere with amateur radio and therefore emergency communications services.

My view is that it may be a good idea in some third world countries, with no telephone service, where there are no alternatives for Internet. However, in modernized countries, we're better off spending the few extra dollars to put in DSL on top of all phone lines or sticking with modems for a while longer, than in the short term, sacrificing emergency communications infrastructure, and in the long term, entrenching a system of broadband that takes away a significant chunk of the spectrum, and prevents all sorts of innovative uses of that spectrum we haven't thought of yet. Spectrum is a scarce resource, and it's gonna get scarcer. The population growing, but amount of spectrum stays constant, sans a few one-time improvements from better utilization (there are fundamental limits on signal strength vs. noise vs. bandwidth vs. bitrate -- with antenna arrays/directional transmissions, there are limits on directionality vs. frequency vs. transmitter size -- we cannot improve utilization forever). In contrast, all the benefits of power-over-power-lines are short-term -- we only gain the one-time cost of not having to modernize our infrastructure (maintanance costs of the two possible infrastructures aren't significantly different).

I don't know how this initiative works, but my impression is that it sends broadband over powerlines, and then the last gap is sent via wireless. If this is the case, it has all of the standard problems associated above. If not, I need more information than is in the article to evalute it :)

Wow, I'm moving to the Soo!

[presearch]

Not only the home of the Bandettes, but now internet for everyone!
My kind of town.

Similar to ESB in Ireland then...

[zoney_ie]

Here in Ireland, the Electricity Supply Board (ESB) - our State electricity company, is setting up something similar. They have a fibre ring following the trunk electricity routes - it's just fibre piggy-backed on their existing infrastructure.

I'm just amazed they haven't done this ages ago - it puts them at a huge advantage to those who have to dig up stuff and lay fibre from scratch.

Not sure what ESBs plan is to connect this main telecomms artery to anything useful...

Canada?

[NixLuver]

Ok, what's the tech market like in Canada for hard-core engineer level *Nix geeks? :) How do Canadians feel about American Immigrants? LOL

FYI from a Canuck ...

[rlowe69]

Just so people not familiar with the place know, the Toronto Star is kind of stretching the word "town" here. Sault Ste. Marie has a population of over 75,000 people.

Also, "hydros" in the article refer to the power utilities like Ontario Hydro. "Hydro" (water) comes from the fact that they get some of the power from hydroelectric damns.

Northern Ontario?

[Dr.+Evil]

Ah yes, a Northern Ontario town, on the southern border of Ontario. South of Seattle. Yep.

Re:Northern Ontario?

[LPetrazickis]

Actually, it's on the Northern Southern border of Ontario, not the Southern Southern border of Ontario. As such, it is obviously Northern to any versed in Torontonian geophysicography as well as I am.:)

RTFA - it IS over the powerline.

[emptybody]

Wyant is quick to point out PUC won't be using power lines to deliver Internet access directly into the home. Instead, the company is installing wireless access points along its medium-voltage lines in densely populated residential areas.

These wireless "boxes" convert data so they can be sent through the grid and on to PUC's fibre-optic backbone, which connects to the Internet. Home computers equipped with 802.11b or "Wi-Fi" wireless access cards and within 150 metres of these access points will be able to use the service.

The advantage of this approach, said Wyant, is that instead of being tied to home with cable or DSL service, a power-line subscriber with a wireless card can use the service anywhere in Sault Ste. Marie that's within range of an access point.

INTERNET BACKBONE
- connects to -
medium-voltage power lines
- connects to -
wireless boxes
- wirelessly transmits to/from -
subscribers wifi devices.

Three birds with one stone!

[Xoder]

Hey, no one likes Hams anyways. And CB is soo 80s! And why wouldn't everyone have the newest 100GHz phone (More GHz means more chicks). Short-wave? Can I get that on my TeeVee?

BTW, I'm KC2DXE and I bought one of those old 49MHz phones at a Hamfest once. Worked really well until one of my younger brothers broke it.

BPL is a PART 15 licensee

[vhfer]

BPL poses a threat to amateur radio, civil and law enforcement communications, and federal emergency management communications. And potentially any Part 15 electronics you got laying around the house.

See that cool remote weather station widget you got, with the remote outdoor sensor? Probably uses 450 MHz to report the outside temp back to the main unit. Baby monitors. Cordless phones, except maybe digital spread spectrum ones. Wireless burglar alarms. Etc etc etc.

All exist by the grace of FCC rules, part 15, which says, "This device must not cause any interference to any other device, and must accept any interference from any other device." That means that if you pay money for it, get it home, and the RF hash from the BPL outside your window blankets the range used by it, and it's useless, you got nobody to cry to. Refer to part 15, FCC rules.

Ok, now, Ham Radio, licensed under part 95 (or part 97? Can never keep that straight) is DIFFERENT. There are specific portions of spectrum carved out and devoted to amateur radio as PRIMARY use bands. If you are not licensed by the FCC under part 95, and you interfere in one of those bands, YOU are required to shut it down.

Lo and behold! BPL in the US is a Part 15 licensee. Guess what? A ham files a notice with the FCC and East Podunk Power Light & Internet needs to punch the buttons that shift the BPL carrier to another set of bands. Then the country sheriff's non-trunked 435 MHz (or whatever) radios become useless in certain areas. A few more notices, a few more shifts, and if they can't stay out of bands they don't belong in without radiating all over the place, and the FCC shows up and says, "Turn it off."

And how tight and non-radiating do you think those rusty bolts and cable clamps are, out in the weather, some of which were last inspected in 1952? Not very, I'll wager. Ever stand near (not UNDER!) a high-voltage distribution tower in wet weather and hear the continuous sizzle? And you think THATS RFI tight??

Call me dubious.

Re:BPL is a PART 15 licensee

[Little+Brother]

What does the FCC have to do with a Canadian outfit, like the one mentioned? Yes, the Canadian government has their own equivilant to the FCC, but the rules arn't identical, so your siting is pretty much irrelavant.

Beleive it or not, US law is not applicable outside of the US.

Re:Roam if you want to

[TeknoHog]

Canadian broadband: also known as eh-thernet.

All the consumer needs is a Wi-Fi unit

[bonnyman]

The Amperion unit on the pole uses Wi-Fi through the air for the connection from the pole to the house. All the subscriber needs is a Wi-Fi unit of his own.

There are other power line broadband systems from other vendors that use a special proprietary modem that plugs into the 120v outlet in the customer home and has an Ethernet output.

Read the scale on your map!

[Dr.+Evil]

If you check one of those common Ontario Road maps, with one side "Northern Ontario" and the other side "Southern Ontario", you'll notice that the scale on Northern Ontario is smaller than that of Southern Ontario. Yet the Sault sometimes just barely appears on the edge of the Southern Ontario map, but also appears on a Northern Ontario map... but the scale is different!

The Sault is indeed at a more southern latitude than Seattle, and it is indeed geographically well in the southern half of the province.

Detroit is at 42 degrees,
Fort Severn is at 56 degrees,
The Sault is at 46 degrees,
Seattle is at 47 degrees.

Granted, most of the time when people are speaking about Southern Ontario, and Northern Ontario, they're drawing the border somewhere along the population rather than the geography. It strikes me as silly though when Ontario-U.S. border towns are considered in Northern Ontario.

The Northern half of Ontario is absurdly large.

Article Quote

[Goody]

"Our service can reach into areas that others don't, because the power network is the most pervasive on the planet. It's where the phones aren't and the cable isn't."

This is wrong. BPL is not a long haul technology. It needs to go through repeaters every 200m, depending on the vendor. The economics for deploying this where cable service doesn't exist isn't there, and is infintessimal where phone service doesn't exist. In fact, it's likely they'll have to use telco facilities or fiber to backhaul the data from BPL segments.

Everyone seems to be under the impression that you plug this in to the grid and voila, fifty miles away you have Internet on every wall plug. This is just not so.

RF on power conductors last mile, Wi-Fi last 100'

[bonnyman]

"They are not transmitting shit over powerlines. They are transmitting over a fiber optic network which they installed with the power lines, then using 802.11b for the "last mile" to the consumer homes.This is not the same thing as the internet over power line debate, with all of the shielding and signal issues."

Wrong!!

The Amperion system uses RF signals injected on the power conductors for the 'last mile' to the Amperion unit on the conductor that then transmits it through the air as Wi-Fi the last 100 feet or so to the subscriber.

Some broadband over power line (BPL) systems use fiber for 'backhaul' from the injection point (often at a substation) to the utilities routers. For instance, City of Manassas Utilities is doing something like that using AFL equipment. The last mile on that system is BPL, however.

("Last mile" refers to the run from the narest aggregation point to the subscriber -- it can actually be more or less than a mile)

In other news...

[vrmlguy]

Hmmm, the Internet seems a bit slow today. Let me check my connection.... ZZZAAAPPP!!!!

Uh, the... internet... has... been... very... good... to... me...

where phone lines aren't?

[GodLived]

"Our service can reach into areas that others don't, because the power network is the most pervasive on the planet. It's where the phones aren't and the cable isn't."

Not to mention, we'll save a FORTUNE avoiding tech support calls from the people without phones... :-)

Not a "Last Mile" solution in rural areas...

[Yeroc]

Unfortunately, this isn't going to be a solution for "Last Mile" broadband in rural areas. As the article notes this is only being deployed in high population density areas in the city using wireless access points to get from the medium voltage lines to the homes. Of course out in rural areas you would end up with one wireless access point serving one household which is unlikely to be economical...

Geography?

[Bad+Axe+Exile]

Sault Ste. Marie... Northern Michigan, SOUTHERN Ontario. and Int'l border.