Really Smart Thermal Management for Next Generation Electronics Amrit Dahal Herbert Hess Mark Roll Gabriel Potirniche https://upload.wikimedia.org/wikipedia/commons/6/6f/HMS_Illustriou.

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Really Smart Thermal Management for Next Generation Electronics Amrit Dahal Herbert Hess Mark Roll Gabriel Potirniche s_with_Fireworks_on_River_Thames_MOD_ jpg

Convert Power 100V to 600V in; 100V to 600V out; DC or AC ¼ Megawatt ½ cubic meter 97% efficient What’s the number 1 problem in making this (and any other machinery or electronics) better? 871_orig.jpg

Heat Containment ‘Wasted’ Energy Limits size Increases costs Degrades performance files/powerelectronics.com/files/archive/powerelectronics.com/images/thermal-cooling-fig1.jpg

Direct heat away from electrical components and keep system cool to within operating temperatures. Harvest wasted heat energy and produce electricity to power control (and peripheral) units. Generate and place heat in strategically smart places. Develop thermal management system described above in an economically sustainable method. Project Objective

Product Concept

This is Cutting Edge Technology! DoD SBIR Project sponsored by the US Navy and Marine Corps DoD SBIR Project sponsored by the US Navy and Marine Corps Automobile industry is considering this technology Automobile industry is considering this technology Possibility for future funding in thermal management and electronic design for those considering grad school. Possibility for future funding in thermal management and electronic design for those considering grad school. 3d69/tumblr_inline_n4hzxlH5j21qzgziy.jpg