Aztech has announced its latest HL112E Mini HomePlug AV Ethernet adapter. which the company said fits snugly into a power outlet without blocking the power switch.
The networking solution is designed to work out of the box with with no setup required - all it takes is a press of the "Simple Connect" button to activate it and it will secure the network with a 128-bit AES encryption.
The new HomePlug adapter is rated to maintain a 200Mbps high-speed connection to support bandwidth demanding activities like IPTV, HD media streaming, video-on-demand as well as VoIP telephony.
The device has an effective range of up to 200m within a single powerline grid to connect network-enabled devices to your high speed Internet line, Aztech said.
Aztech has announced its latest HL112E Mini HomePlug AV Ethernet adapter. which the company said fits snugly into a power outlet without blocking the power switch.
The networking solution is designed to work out of the box with with no setup required - all it takes is a press of the "Simple Connect" button to activate it and it will secure the network with a 128-bit AES encryption.
The new HomePlug adapter is rated to maintain a 200Mbps high-speed connection to support bandwidth demanding activities like IPTV, HD media streaming, video-on-demand as well as VoIP telephony.
The device has an effective range of up to 200m within a single powerline grid to connect network-enabled devices to your high speed Internet line, Aztech said.
Aztech has announced its latest HL112E Mini HomePlug AV Ethernet adapter. which the company said fits snugly into a power outlet without blocking the power switch.
The networking solution is designed to work out of the box with with no setup required - all it takes is a press of the "Simple Connect" button to activate it and it will secure the network with a 128-bit AES encryption.
The new HomePlug adapter is rated to maintain a 200Mbps high-speed connection to support bandwidth demanding activities like IPTV, HD media streaming, video-on-demand as well as VoIP telephony.
The device has an effective range of up to 200m within a single powerline grid to connect network-enabled devices to your high speed Internet line, Aztech said.
Graphene is a super-material that Nokia believes will revolutionise gadgets and "change the world." Nokia explains, "Graphene is an allotrope of carbon and its 2D structure measures just one atom thick.
Nokia Morph in Phone Mode
While being thin, it's the strongest material ever tested, having a breaking strength 200 times greater than steel and is also the lightest material ever, best intrinsic conductor and super-flexible, too. It's predicted to replace silicon as the base for all electronics."
This thin, light, super-strong, flexible material may be the key to developing revolutionary devices, such as Nokia's "Morph," that up until now have only been envisioned as far-fetched concepts.
"We're not just talking about mobile phones here, we're talking about the technology in its vastness. Once the technology exists, your TV could - in theory - just be unrolled and pasted to your living room wall, like a roll of wallpaper," adds Nokia in a June 14 post on its Conversations blog.
While the possibilities for Graphene-based gadgets are mind-boggling there is still a lot of research to be done.
Nokia is teaming up with four Nobel laureates: Dr Andrea Gelm, Dr Konstantin Novoselov, Dr K. von Klitzing and Dr A. Fert to further the technology as part of the Graphene Flagship programme.
The Chalmers University of Technology, the University of Manchester, the University of Lancaster, the University of Cambridge, AMO Gmbh, the Catalan institute of Nanotechnology, the Italian research council, and the European Science foundation will also be involved in the programme.
Nokia Morph in Wrist Mode
The Graphene Flagship programme was launched on May 4 in Budapest with the goal of bringing "this most-promising material to the real-world." It is part of an ambitious science-driven, research initiative in the EU called the Future and Emerging Technology (FET) Flagships project. A video of Nokia's Morph concept can be seen here
Graphene is a super-material that Nokia believes will revolutionise gadgets and "change the world." Nokia explains, "Graphene is an allotrope of carbon and its 2D structure measures just one atom thick.
Nokia Morph in Phone Mode
While being thin, it's the strongest material ever tested, having a breaking strength 200 times greater than steel and is also the lightest material ever, best intrinsic conductor and super-flexible, too. It's predicted to replace silicon as the base for all electronics."
This thin, light, super-strong, flexible material may be the key to developing revolutionary devices, such as Nokia's "Morph," that up until now have only been envisioned as far-fetched concepts.
"We're not just talking about mobile phones here, we're talking about the technology in its vastness. Once the technology exists, your TV could - in theory - just be unrolled and pasted to your living room wall, like a roll of wallpaper," adds Nokia in a June 14 post on its Conversations blog.
While the possibilities for Graphene-based gadgets are mind-boggling there is still a lot of research to be done.
Nokia is teaming up with four Nobel laureates: Dr Andrea Gelm, Dr Konstantin Novoselov, Dr K. von Klitzing and Dr A. Fert to further the technology as part of the Graphene Flagship programme.
The Chalmers University of Technology, the University of Manchester, the University of Lancaster, the University of Cambridge, AMO Gmbh, the Catalan institute of Nanotechnology, the Italian research council, and the European Science foundation will also be involved in the programme.
Nokia Morph in Wrist Mode
The Graphene Flagship programme was launched on May 4 in Budapest with the goal of bringing "this most-promising material to the real-world." It is part of an ambitious science-driven, research initiative in the EU called the Future and Emerging Technology (FET) Flagships project. A video of Nokia's Morph concept can be seen here
Graphene is a super-material that Nokia believes will revolutionise gadgets and "change the world." Nokia explains, "Graphene is an allotrope of carbon and its 2D structure measures just one atom thick.
Nokia Morph in Phone Mode
While being thin, it's the strongest material ever tested, having a breaking strength 200 times greater than steel and is also the lightest material ever, best intrinsic conductor and super-flexible, too. It's predicted to replace silicon as the base for all electronics."
This thin, light, super-strong, flexible material may be the key to developing revolutionary devices, such as Nokia's "Morph," that up until now have only been envisioned as far-fetched concepts.
"We're not just talking about mobile phones here, we're talking about the technology in its vastness. Once the technology exists, your TV could - in theory - just be unrolled and pasted to your living room wall, like a roll of wallpaper," adds Nokia in a June 14 post on its Conversations blog.
While the possibilities for Graphene-based gadgets are mind-boggling there is still a lot of research to be done.
Nokia is teaming up with four Nobel laureates: Dr Andrea Gelm, Dr Konstantin Novoselov, Dr K. von Klitzing and Dr A. Fert to further the technology as part of the Graphene Flagship programme.
The Chalmers University of Technology, the University of Manchester, the University of Lancaster, the University of Cambridge, AMO Gmbh, the Catalan institute of Nanotechnology, the Italian research council, and the European Science foundation will also be involved in the programme.
Nokia Morph in Wrist Mode
The Graphene Flagship programme was launched on May 4 in Budapest with the goal of bringing "this most-promising material to the real-world." It is part of an ambitious science-driven, research initiative in the EU called the Future and Emerging Technology (FET) Flagships project. A video of Nokia's Morph concept can be seen here
The latest model of Apple's ultra-light MacBook Air is scheduled to hit the market by the end of this month, media in the computer manufacturing hub of Taiwan reported.
The first shipment of the next-generation MacBook Air - the thinnest line of Apple's notebook computers, shorn of a hard drive and optical disc player - will be 380,000 units, the Taipei-based Economic Daily News said.
An 11.6in model will account for 55% of the units in the first batch, and a 13.3in model the rest, according to the paper.
It said that about 90% of MacBook Airs would be assembled by Taiwan's Quanta Computer, a leading contract computer manufacturer
