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Power Switching Technology for High Breakdown Voltages

Details

Project TitlePower Switching Technology for High Breakdown Voltages
Track CodeUIC-2014-055
Short Description

Innovators at UIC have developed a high breakdown voltage InAlN/GaN device useful in power switching applications and integrated circuits.

Abstract

Currently, the biggest problem with InAlN/GaN devices is their low breakdown voltages, which is typically less than 200V. This is not suitable for a many applications such as power switches in smart grids, or hybrid electric cars. Inventors at UIC have proposed a novel approach to make the breakdown voltage of InAlN/GaN much higher than 1000V, rendering this kind of device very promising for next generation applications.  This work will make possible any commercial production of power switches based on InAlN/GaN materials, which are much more effective than conventional AlGaN/GaN switches. InAlN/GaN can offer higher current carrying capabilities and greater resilience to current collapse due to the high Aluminum percentage in the barrier layer, and reduced strain in the epitaxial structure.



Applications:    Can be used in smart grids, windmills, factory automation, hybrid and electric cars, and aeronautics.



Benefits:    A very high breakdown voltage can be achieved, as well as high current density and minimal current collapse (i.e., devices will not degrade when switched).



For more information, contact Mark Krivchenia.

 
TagsElectrical/Electronics, energy, Engineering/Physical Science, gallium, hardware, InAlN/GaN, MEM, Miscellaneous – Physical Sciences, semiconductor, sensors, aluminum, breakdown voltage, current density, hybrid electric vehicles, indium, power circuits, power switching, Smart Grid
 
Posted DateMar 23, 2016 4:56 PM

Researcher

Name
Junxia Shi

Manager

Name
Mark Krivchenia
Sandra Thompson

Intellectual Property

Patent Number Issue Date Type Country of Filing
62/245,427 None Provisional United States
None None Other Patent None