Intel Moves to Free Gadgets of Their Recharging Cords
SAN FRANCISCO — Intel has made progress in a technology that could lead to the wireless recharging of gadgets and the end of the power-cord spaghetti behind electronic devices.
It says it has increased the efficiency of a technique for wirelessly powering consumer gadgets and computers, a development that could allow a person to simply place a device on a desktop countertop to power it. It could bring the consumer electronics industry a step closer to a world without wires.
On Thursday, the chip maker plans to demonstrate the use of a magnetic field to broadcast up to 60 watts of power two to three feet. It says it can do that losing only 25 percent of the power in transmission.
“Something like this technology could be embedded in tables and work surfaces,” said Justin Rattner, Intel’s chief technology officer, “so as soon as you put down an appropriately equipped device it would immediately begin drawing power.”
The presentation is part of the company’s Intel Developer Forum, a series of events here that the company uses to showcase new technologies in personal computing and related consumer technologies.
The research project, which is being led by Joshua R. Smith, an Intel researcher at a company laboratory in Seattle, builds on the work of the Massachusetts Institute of Technology physicist Marin Soljacic, who pioneered the idea of wirelessly transmitting power using resonant magnetic fields. The MIT group refers to the idea as WiTricity, a play on wireless and electricity. Both the M.I.T. group and the Intel researchers are exploring a phenomenon known as “resonant induction,” making it possible to transmit power several feet without wires.
Induction is already used to recharge electric toothbrushes, but that approach is limited by the need for the toothbrush to be placed in the base station.
The M.I.T. group has demonstrated efficiencies of 50 percent at ranges of several meters.
Intel is in the midst of an internal debate over whether the technology may also permit the shift to supercapacitors, which can be recharged far more quickly than today’s batteries. “In the future, your kitchen counters might do it,” Mr. Rattner said. “You’d just drop your espresso maker down on them and you would never have to plug it in.”
The Intel team describes its system as a “wireless resonant energy link,” and is experimenting with antennas less than two feet in diameter to remotely light a 60-watt light bulb.
In 2006, the M.I.T. researchers demonstrated that by sending electromagnetic waves around a waveguide it was possible to produce “evanescent” waves that could permit electricity to wirelessly tunnel to another waveguide “tuned” to the transmitting loop.
Several start-up firms , including WildCharge, based in Boulder, Colo., and WiPower, based in Altamonte Springs, Fla., have already announced related wireless charging technologies. But these demonstrations have required that the consumer gadgets touch the charging station.
The Intel researchers said they were thinking about designing a system that would make it possible to recharge a laptop computer without wires.
“From Intel’s position that seems like the thing to shoot for right now,” Mr. Smith said. The receiving antenna is about the size of something that could easily fit against the bottom of a conventional laptop computer. “It could be that cellphones and P.D.A.’s are even more compelling, but I think we are going to start with the laptop. It’s easy to dial down from laptops,” he said.
The researchers said that Intel could produce a prototype design and that it might contribute to products by developing chip sets for manufacturers. At Thursday’s research presentation, Mr. Smith plans to demonstrate an application using an electric field sensor — a natural capability of some fish — to give added dexterity to robotic arms and hands. He has designed a sensor system that makes it possible for a robot hand to gauge the size of an apple and then grasp it. The hand then carries the apple to an outstretched human hand. When it senses the hand, it drops the apple.
 英特爾新一代的Nehalem芯片 |
電腦微處理器巨頭英特爾公布了2009年以後該公司的微處理器核心產品系列。
英特爾公司在美國舊金山舉行的秋季"英特爾開發者論壇"上,公布了新一代微處理器Core i7的Nehalem微架構詳情。
英特爾說,新一代處理器適用於台式機,服務器和筆記本產品,它不僅功能強大,而且節能高效,並增強了圖像處理能力。
英特爾利用Nehalem微架構的特點,把記憶體與處理器功能放在同一枚芯片之內,而不是分開由兩枚芯片處理。因此在最高階的Core i7處理器內,共安裝了8個處理核心。
英特爾說,新產品系列的創新技術所提供的記憶體頻寬是上一代芯片的三倍,三維動畫的處理能力將會倍升。
Nehalem微架構也具有節能的功能,它的"turbo"模式能把芯片不用的部分關閉。
英特爾公司還說,Nehalem微架構的設計可以讓數據從電腦的記憶體分流到微處理器上,從而加快了電腦的運算速度。
英特爾在芯片上加入了這種技術之後,將具有對手AMD的同一運作能力。AMD在五年前的Opteron處理器上已經用上這種技術。
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