UNC Charlotte receives funds from PowerAmerica for New Projects to Advance Wide Bandgap Technology in U.S.

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The PowerAmerica Institute at N.C. State University, a member of Manufacturing USA, recently awarded funding to six new member projects that will enhance wide bandgap technologies in the United States, including two to EPIC’s Dr. Babak Parkideh and Dr. Madhav Manjrekar. In addition, PowerAmerica awarded funding for 20 projects to be led by existing members for a total of $20 million in project funding for this cycle. A detailed list of all projects with descriptions is available online.

“These projects are instrumental in fulfilling PowerAmerica’s mission of accelerating the adoption of wide bandgap technologies into power electronics systems. To date, the institute has funded scores of projects that have contributed to the development of more efficient power electronics, which will benefit a range of applications – from electric vehicles to data centers,” said PowerAmerica Deputy Executive Director and CTO Victor Veliadis.

The new member projects receiving funding are:

Module Development and Manufacturing
Design and Manufacturing of Advanced, Reliable and Wide Bandgap Power Modules
GE Aviation Systems + National Renewable Energy Laboratory
GE and NREL will work together to design and produce advanced wide bandgap power modules made with silicon carbide and gallium nitride. The goal of this project is to enable true engine coolant temperature-grade equipment which is required to support next generation defense systems as well as commercial transportation, wind and solar, while reducing overall system costs.

Commercialization Applications
Dual-Inductor Hybrid Converter for Direct 48V to sub-1V PoL DC-DC Module
University of Colorado, Boulder
A team at UC Boulder will design and implement a GaN-based, novel converter
with an increased density of 10 times of converters currently on the market, with up to three times lower power loss. The converter will have fewer components, simpler implementation and lower cost. It can be used for power delivery to data centers, cellular base stations, portable applications, and defense systems.

Introduction of Devices for Solid-State Circuit Breaking at the Medium Voltage Level
University of North Carolina, Charlotte
The team at UNCC will test a functioning prototype of a medium voltage (3.3 kv) SiC solid-state circuit breaker. The use of silicon carbide in the product will enable fast turn-off capability in the microsecond range or better, and superior efficiency compared to silicon. Market segments to be targeted include utility operators of the electricity distribution network.

600V GaN Bi-directional Switch
Infineon
Infineon will develop a low-cost, 600V bidirectional 70mOhm switch based on the company’s CoolGaN HEMT technology, capitalizing on the unique bidirectional nature of the GaN HEMT. The project will validate both the dual gate concept and a solution for substrate voltage stabilization, and will make the GaN switch more economically attractive compared to the standard silicon devices commonly used today.

Education and Workforce Development
Graduate Wide Bandgap Semiconductor Power Device Lab
North Carolina State University
A team at NCSU will establish a graduate laboratory course focused entirely on the design, fabrication, and characterization of wide bandgap power devices, and disseminate the curriculum to PowerAmerica members to accelerate the education of new engineers.

Power Electronics Teaching Lab Incorporating Wide Bandgap Switches and Circuits
University of North Carolina, Charlotte
Researchers at UNCC will develop a modular, multi-function, educational high-frequency power electronics board with plug and play capability. The new board will give students the flexibility to perform different power electronics lab sessions and train undergraduate students as wide bandgap power electronics engineers through hands-on experience and practical knowledge of WBG semiconductors in power electronics applications.

About PowerAmerica
PowerAmerica aims to save energy and create U.S. manufacturing jobs by accelerating the development and large-scale adoption of wide bandgap semiconductor technology made with silicon carbide and gallium nitride in power electronics systems. The institute, located at North Carolina State University in Raleigh, NC, is funded by the Department of Energy, industry partners and the state of North Carolina, and has a member portfolio representing more than 45 leading companies in the wide bandgap semiconductor field.