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Military & Aerospace Electronics
February 2008 |
Nextreme Offers Electro-Optics and Microelectronics Cooler for Military Applications Nextreme Thermal Solutions is introducing the Ultra-High Packing Fraction (UPF) OptoCooler thermoelectric module for cooling and temperature-control requirements for electronics, medical, military, and aerospace applications.   |
Military & Aerospace Electronics
May 2009
J.R. Wilson |
Electronic thermal management is heading to the wall Systems designers who are used to boosting electronic system performance by adding ever-more transistors may have to rethink their design approaches. |
IEEE Spectrum
January 2009
Willie D. Jones |
Intel-led Team Demonstrates First Chip-Scale Thermoelectric Refrigerator An integrated thermoelectric device cools a hot spot on a much larger chip |
Military & Aerospace Electronics
May 2008
Courtney E. Howard |
Hot components and cool enclosures Systems architects and integrators are tackling the issues of military electronics survivability with clever chassis designs. |
Military & Aerospace Electronics
August 2006 |
Chip-on-Flex Filter Connector Withstands Thermal Shock and Vibration The ITT Industries Electronic Components segment is offering the Cannon Chip on Flex (CoF) filter technology that reduces stress from thermal shock and vibration while protecting sensitive electronics in a lightweight package. |
IEEE Spectrum
July 2008
Monica Heger |
Thallium Doping Boosts Thermoelectrics Bad for people, but good for energy conversion |
Technology Research News
June 1, 2005 |
Going Nano Boosts Thermoelectrics Thermoelectric materials take advantage of the temperature difference between a pair of materials that conduct electricity. Researchers have shown how a thermoelectric material should be designed to reach its maximum possible efficiency. |
Technology Research News
April 7, 2004 |
Material boosts thermoelectricity A new family of thermoelectric semiconductor materials have a ZT factor (a formula that includes thermal power, electrical conductivity, thermal conductivity and temperature) which may be high enough for practical electricity generation. |
Military & Aerospace Electronics
June 2009
Courtney E. Howard |
Electronics miniaturization Nanotechnology and MEMS are ideal for mil-aero applications, given the increasing need for small, light weight, and low-power solutions. |
Military & Aerospace Electronics
February 2007
John McHale |
Thermal-management challenges highlight Military Technologies Conference 2007 U.S. Department of Defense and industry experts to discuss thermal and power management at the Military Technologies Conference (March 27 and 28, 2007) in Boston. |
IEEE Spectrum
December 2011
Strano & Kalantar-Zadeh |
Nanodynamite Fuel-coated nanotubes could provide bursts of power to the smallest systems |
Technology Research News
August 27, 2003 |
Metal process makes heat chips Researchers from the California Institute of Technology have found a way to make tiny thermoelectric devices that can be used to generate electrical power from heat and to cool very small areas. |
Military & Aerospace Electronics
November 2006 |
COTS military and avionics DC-DC converters The MTC noncustom converter is available in 5-, 15-, and 35-watt ratings. |
IEEE Spectrum
January 2008
Neil Savage |
Silicon Nanowires Turn Heat to Electricity Thermoelectric converters could tap waste heat from power plants and microchips. |
IndustryWeek
December 16, 2010 |
Technology Would Power Cars with Auto Exhaust Developed by GM and Purdue University, system harvests heat from engine exhaust to generate electricity. |
IEEE Spectrum
June 2011
Eliza Strickland |
Thermoelectrics Get Cooler Start-ups are advancing solid-state cooling systems |
Chemistry World
July 25, 2008
Lewis Brindley |
Thermoelectrics doped for better performance Researchers have discovered how to boost the performance of lead telluride, a thermoelectric material that converts heat into electricity: just add thallium. |
Military & Aerospace Electronics
July 2005
John Keller |
Is cooling the central design issue of our time? The pace of improvements in integrated circuitry is outstripping our ability to remove unwanted heat. And engineers are starting to quip about some of the dilemmas that new cooling approaches may create. |
Military & Aerospace Electronics
November 2008 |
Electro-optics Briefs Thermal and CCD camera for military applications... small LEDs for lighting applications... IR illuminator with adjustable angles and power settings... etc. |
Chemistry World
April 2011 |
Waste Not, Want Not Modern devices waste a lot of energy as heat, noise and vibration. Here's a look at a new breed of energy scavenging materials that could recapture some of it. |
Chemistry World
March 20, 2013
Harriet Brewerton |
Period heat source gives thermoelectric power a boost Scientists in the US have found a way to improve the efficiency of thermoelectric power generators -- devices designed to convert heat directly into electricity. |
Chemistry World
April 4, 2014
Charlotte Still |
Power up with body heat A thermoelectric generator that converts body heat into electricity could make replacing or recharging batteries in wearable electronics a task of the past. |
Chemistry World
February 6, 2013
Jennifer Newton |
Electricity at your fingertips Scientists in South Korea have made a conducting polymer as part of a thin-film thermoelectric device that can generate electricity from the temperature difference between your fingertips and the environment. |
