ADSL2+ Chip from Infineon Sets New Standards for Power Consumption and System Costs

The German semiconductor manufacturer Infineon Technologies AG has introduced the world’s smallest and most economical chip for “ADSL2+” - the DSL data network of the future. This chip enables telecommunications companies to boost the number of super-high-speed DSL connections that they offer to their customers by approximately one third - without additional investments for cooling or for power supply and without changing cabinet sizes. With ADSL2+, which is expected to be launched as a service on a wide scale in 2006, a conventional telephone connection is sufficient to surf the Internet, receive multiple television channels and place a telephone call all at the same time.

“With the new semiconductor chip for future DSL central offices, Infineon Technologies is underscoring its leading role in the booming market for the chips that are being used in broadband data networks,” emphasizes Christian Wolff, Vice President Communications Business Group and General Manager Wireline Access Business Unit at Infineon. At the beginning of 2005, there were approximately 100 million DSL connections throughout the world. Approximately 40 percent of these connections were added last year. This growth is expected to continue over the next few years. In the process, the new ADSL2+ standard is to replace the current DSL connections soon. With ADSL2+, data can be transmitted at up to 25 megabits per second. This is approximately ten to twenty times faster than the DSL connections that are typically in use today, and it is sufficient to transmit several high-definition television broadcasts, Internet data and inexpensive Internet telephone calls simultaneously.

Less Heat – More Connections Within the Same Space

The new “GEMINAX PRO” ADSL2+ chipset from Infineon offers DSL central offices performance features that are unmatched to date. Power consumption is about 30 percent lower than is the case with conventional chips, and a correspondingly lower amount of heat is produced. Thanks to these features and to the small overall size, it is possible to install the chips in switching systems at much higher densities without requiring any additional cooling. Over all, GEMINAX PRO now makes it possible to install approximately one third more ADSL2+ connections without increasing the amount of cabinet space that is required.

The “switched-mode” technology that is used in GEMINAX PRO is already being employed widely in portable audio devices (such as MP3 players) due to its extremely low power consumption levels. Through a multitude of technological innovations, Infineon’s developers have now succeeded in adapting and advancing this technology for broadband applications, although the requirements in this area are much more stringent and the frequency that is used is 100 times higher. The first prototypes for the new chip will be shipped in May, and volume production will begin in autumn 2005.

Related stories:

The largest synthesized telescope in Europe doubles its surface
The 100m Radio Telescope Effelsberg enters operations of the e-EVN network, enhancing its sensitivity to detect the radio sky providing the sharpest images in nearby real time. The European radio interferometric network e-EVN almost doubles its sensitivity with the addition of the largest radio telescope in Europe.
Ubiquitous broadband, more than optical illusion
Better access to ultra-fast broadband networks in Europe is driving development of a host of new web services, promising everything from video conferencing to internet protocol (IP) television. But “ultra-broadband” like this needs a new champion, and European researchers think they have found it: optical networks.
Alcatel-Lucent builds first commercial Universal 802.16e–2005 WiMAX Network in Germany
Alcatel-Lucent is deploying Germany’s first commercial universal WiMAX network - based on the 802.16e–2005 standard (also known as Rev-e) - in the Saar region for VSE NET, a regional telecommunications service provider in Saarbrücken.
Researchers achieve transmission rates of 107 Gbits per second over a single fiber channel
In cooperation with Micram, the Fraunhofer Institute for Telecommunications (Heinrich-Hertz-Institut) and Eindhoven Technical University, Siemens has successfully tested the network of the future. This involved the 100% electrical processing of data rates of 107 Gbits per second and transmission over a 100 mile long fiber-optic route in the U.S. – the first time this has ever been done outside the laboratory.
Home broadband users up 40 percent
More Americans are adopting broadband in their homes, according to a report from the Pew Internet & American Life Project, finding that the adoption rate grew by 40 percent from March 2005 to 2006.
Net Neutrality lives on in Congress
Both the House Judiciary Committee and the Senate Committee on Commerce, Science, and Transportation are expected to review Net neutrality-related bills later this week.
Net Neutrality lives on in Congress
Both the House Judiciary Committee and the Senate Committee on Commerce, Science, and Transportation are expected to review Net neutrality-related bills later this week.
Two DVDs per second: a tiny chip processes data at extremely high speed
Siemens researchers working in collaboration with specialists from Infineon have developed a receiver that converts Internet data from fiber-optic cables into electrical signals at breathtaking speed. At present, highly complex and expensive modules are needed for receiving such signals. In the future, components such as the Infineon chip, which is being used for the first time, will play an essential role in increasing the performance of communications networks at reasonable cost.

News discussion:

Technology news