Followup re UK internet on Powerline
Here are two comments on the Nortel Norweb press release of Oct. 8. The first is from Wired Magazine’s website, and points out some of the reasons why this technology may not take the world by storm right away. The second from Reuters gives a bit more technical and business detail.
No response as yet to my inquiries to the company.
The Boy Who Cried ‘Net Access!’
by Chris Oakes WIRED
4:45am 10.Oct.97.PDT Some sizable questions surround Wednesday’s announcement by Canada’s Northern Telecom and Britain’s Norweb Communications of a technology Nortel has developed that enables high-speed Net access through existing electric lines – giving utilities an apparent easy-in to becoming communication providers via their own power-line infrastructures.
To convert power grids to data networks, says Nortel vice president of market development Graham Strange, the company’s design “modulates the data signal onto the power line and creates what is essentially a LAN environment.”
Having created a transmission protocol sufficiently robust to make its way through the heavy-duty noise of an electrical line at up to 1 Mbps, the company says, any power line can do the job. Yet there are some not-so-small technical and economic issues that may keep the local power company from rolling out the tech without some careful analysis. Especially those in North America.
The Nortel layout leverages a power grid’s tree-and-branch structure of substation-to-transformer-to-customer. A data signal can comfortably travel over existing lines from a customer’s house to the local transformer, but a problem arises then. Data won’t survive a trip through the extra-heavy noise of electrical current at the transformer, necessitating the construction of an alternate route to shuttle the data signal further up the network. And unless the power company already has separate communications lines running to that transformer node, new lines will have to be installed to finish the data circuit.
“You do have to split it out, because you can’t get it through the transformer,” Strange said. But that cost can be justified, he said, when each transformer is serving 100 to 300 customers. This is usually the case in the UK, but when each transformer only serves a handful of people – commonly 10 to 12 people in North America – the network’s tree-and-branch structure is too small for the job. And for those utilities that might choose to invest in new communications lines to their transformers, the prospect starts to lose its payoff.
Acknowledging that this could represent a significant investment for some, Strange points out that many power companies already have usable communication lines running into their transformers – and in many cases they are fiber-optic lines, which are ideal for carrying the data signal. “But other utilities will have to invest in infrastructure at the sites,” Strange said. “The economics of this becomes a challenge for some utilities – it’s a tougher business case when you try to fit it into that environment.”
A potential solution is to somehow bypass the transformer with the data signal, requiring it to make a jump between low- and high-voltage lines. Strange says there are a series of issues in making that work, and that Nortel will be trying to come up with a solution in concert with UK electric utility Norweb. “There are issues. They will take time.”
Meanwhile, Strange reports that calls by interested British and North American utilities have been pouring in.
Another variable is the system’s supported data speeds. Nortel says symmetric data rates of 500 Kbps to 1 Mbps have been achieved. But Strange says the consistency of these rates will depend on the noisiness of local lines. “With a lot of noise on the lines, the protocols will slow down. It dynamically deals with that.” To boot, as with cable-modem access, available bandwidth at the transmitter will have to be shared, presenting the possibility that during heavy traffic periods, each user’s speed will be affected. Still, under even bad conditions, a minimum speed of 500 Kbps can reasonably be expected, Strange says.
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Norweb, Nortel To Plug Clients Into Internet
By Kirstin Ridley, Reuters
LONDON – Canada’s Northern Telecom (Nortel) and Britain’s Norweb Communications today unveiled new technology allowing reliable, low-cost, high-speed access to the Internet computer network through the domestic electricity supply.
In a move heralding the first competition between electricity companies and telecommunications carriers, the two groups said their patented technology would allow power firms to convert their infrastructures into information access networks.
Having “fixed the fuzz” of electrical interference on power lines, the companies said they could shunt data — and possibly voice — over power lines into the home at up to one megabit per second.
This is up to ten times faster than ISDN, the fastest currently available speed for domestic users.
Although it is slower than rival ADSL technology being developed by British Telecommunications , which upgrades copper wires, Norweb and Nortel’s technology is much cheaper for operators to install.
All consumers need is the equipment developed by Nortel and Norweb — an extra card for personal computers, some software to handle subscription, security and authentication services and a small box which is installed next to the electricity meter.
This will send and receive data and is in turn linked to a personal computer through an ordinary coaxial cable.
Peter Dudley, vice president of Nortel, said the groups had had an “absolutely spectacular” amount of interest from electricity companies in Britain and abroad who are keen to offer the service to consumers.
“The race is on to be first,” he told Reuters.
Prices will be set by electricity companies who offer the service. But consumers currently spend an average of 20 to 30 pounds ($48.6) per month for Internet access — and the new service offers permanent access without telephone costs.
“Assuming they continue to spend at that rate, it is not unreasonable to assume that is the kind of tariffing that may be submitted,” Dudley said.
The Canadian telecoms equipment maker and Norweb, part of England’s multi-utility United Utilities, said their technology was fast enough for most future domestic or small office applications and was cost effective enough to allow operators returns on investments.
“As one of the first practical, low cost answers to the problem of high speed access to the Internet, this technology will unleash the next wave of net growth,” Dudley said.
The two companies have developed a “specialized signaling scheme” which allows them to carry data traffic between local power substations and homes, effectively turning the electricity supply into a communications network.
Each substation is then linked by fiber-optic circuits to a central switch — and from there into the world-wide computer network.
After 18 months of refining and upgrading a prototype and promising “oodles of bandwidth”, the companies said they planned to market the technology in Europe and the Asia Pacific region.
“We are ready to ship in volume,” said Ian Vance, vice president and chief scientist at Nortel Europe.
Banking on high growth and good economic returns, Norweb hopes to attract around 200 customers in a marketing pilot in north western England in the second quarter of 1998 before rolling out the service.
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