Cooling: These infrared images show Tessera's ionic-cooling system in action. After the device is turned on, a plume of air carries heat away from the system.
Tessera
The thin and efficient technology could replace bulky cooling fans.
Anyone who uses a laptop will be familiar with the whir that the fan makes as it kicks in when the processor's temperature reaches around 100 °F. As laptops and other electronics have gotten smaller and thinner, researchers have begun searching for alternative cooling methods that add less bulk and are quieter.
One novel idea is to cool a system by using ions to push air molecules across a hot microprocessor, thereby creating a cooling breeze. So-called ionic-cooling systems have been demonstrated in research labs before, but now Tessera, an international chip-packaging company based in San Jose, CA, has demonstrated an ionic-cooling system integrated into a working laptop.
Researchers from Tessera and the University of Washington presented details of the ionic-cooling system at the IEEE Semi-Therm Symposium in March. The system can extract roughly 30 percent more heat from a laptop than a conventional fan can, and lab tests show that it could potentially consume only half as much power, the company says.
The ionic-cooler is based on work originally done in 2006 by Alexander Mamishev, a professor of electrical engineering at the University of Washington, and his colleagues. Last year, Tessera licensed the technology, and the company has since modified it to fit into a laptop. In addition to removing heat more efficiently than a fan, "it has silent operation--no moving parts," Mamishev says. "This is a big milestone."
"The early work focused on principles," says Ken Honer, director of research and development at Tessera. "We're now focused on optimizing it and fitting it into small form factors." This includes not only notebooks, but also game systems, projectors, and servers, he says.
"Tessera's developments certainly show the potential for EHD cooling," says Suresh Garimella, who is a professor of electrical engineering at Purdue and director of the university's Cooling Technologies Research Center. "Their results are a positive step for this technology."
Tessera's ionic cooler sits near a vent inside the laptop. Heat pipes, which transfer heat using the evaporation and condensation of a fluid, draw heat away from the computer's processing units and toward the ionic-cooling system. Inside the ionic-cooling device are two electrodes: one that ionizes air molecules such as nitrogen, and another that acts as a receiver for those molecules. When a voltage is applied between the two electrodes, the ions flow from the emitter electrode to the collector. As they move, their momentum pushes neutral air molecules across a hot spot, cooling it down.
Researchers have made ultrathin refrigerators for microprocessors.
By using an electric charge to put molecules in motion, a new device can make a computer's fans more efficient.
Computer fans could get some relief from charged particles that create a cooling breeze.
Missing the point - one needs to lower the heat output in the 1st place
Although some more efficient cooling could help a bit, this "cooling approach" totally misses the point of using tablets/laptops.
If the laptop makes a lot of heat, then this heat has to go somewhere, regardless of what type of cooling technology you use. And the heat will go onto your hands and into your lap. It will be uncomfortable anyway.
The real solution is to lower the heat output of the machine. Try to invent chips and circuits that do not heat up.
Re: Missing the point - one needs to lower the heat output in the 1st place
You're missing the point.
Until we get some alien technology, there will always be heat produced, and it will always be necessary to remove it. Even if the amount of power is small, like 10 Watts, the problem is really the temperature. CPUs have a small amount of heat in a small volume - the power density is high, so the temperature can be very high, causing damage. The breakthrough on this is that the energy required to remove it is half.
The idea is very interesting, however it is not new idea.
In 1965 Oscar Blomgren receive US patent USP # 3,224,497 for "Method & Apparatus for Lowering the Temperature of a Heated Body" that describe electrostatic cooling.
There is also indication the electrostatic cooling is used on F-111 fighter wings.
You can read some detail about that in there:
http://www.rexresearch.com/blomgren/blomgren.htm
No mention of ozone?
Ozone is a pollutant and irritant. It will accumulate if the computer is used indoors. There is no way to prevent the formation of ozone. For this reason, I dont think this tech is going anywhere.
Try thinking in terms of you being that molecule of air/water/whatever and then see what you are subjected to, and then think of cooling yourself down. chill factor is really overlooked alot.
Manufacturing in the United States is in trouble. That's bad news not just for the country's economy but for the future of innovation.
This document is part of the “How-To Guide for Most Common Measurements” centralized resource portal. This tutorial provides a detailed guide for measurement and device considerations to take temperature measurements using thermocouples. Get an introduction to thermocouples, which are inexpensive sensing devices widely used with PC-based data acquisition systems. Also review some specific thermocouple examples and learn how thermocouples work and ways to integrate them into a data acquisition measurement system.
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Guest (billferreira)
NOx byproduct?
Won't converting nitrogen atoms into ions cause them to bind with oxygen and produce nitrous-oxide which is rather toxic?
Bill
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squirrelmessiah
1 Comment
Re: NOx byproduct?
I'm not sure of the answer to your question from the top of my head but if you do the thermodynamic calculations it should be apparent. I would suspect not as the atmosphere is ~78% N2, ~21% O2 and ionizing reactions occur often enough that a build up of NOx would be observable.
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