Advances in SiC VJFETs for renewable and high-efficiency power electronics applications

Author

Sheridan, D.C. ; Ritenour, A. ; Kelley, R. ; Bondarenko, V. ; Casady, J.B.

Author_Institution

Semisouth Labs., Inc., Starkville, MS, USA

fYear

2010

fDate

21-24 June 2010

Firstpage

3254

Lastpage

3258

Abstract

The unique wide bandgap properties of SiC allow the creation of high performance normally-off vertical JFET power device. Due to the vertical nature of the device, it can easily be designed with blocking capability exceeding 2kV with R_{DS(ON), sp} > 3mΩ-cm², resulting in the lowest specific on-resistance for enhancement mode SiC devices with V_BR <; 1200V. The low R_{DS(ON), sp} yields a small die size that translates into switching losses that are 5-10X smaller than similarly rated Si IGBTs. When used as an IGBT replacement, a significant reduction in losses can be achieved, greatly increasing the overall system efficiency of solar inverters and other renewable power systems.

Keywords

elemental semiconductors; insulated gate bipolar transistors; junction gate field effect transistors; renewable energy sources; silicon compounds; IGBT replacement; SiC; high-efficiency power electronics applications; renewable power systems; solar inverters; vertical JFET power device; voltage 2 kV; Costs; Hybrid power systems; Insulated gate bipolar transistors; Power electronics; Renewable energy resources; Silicon carbide; Switches; Switching frequency; Switching loss; Voltage; IGBT; JFET; SiC; module; silicon carbide; switching energy;

fLanguage

English

Publisher

ieee

Conference_Titel

Power Electronics Conference (IPEC), 2010 International

Conference_Location

Sapporo

Print_ISBN

978-1-4244-5394-8

Type

conf

DOI

10.1109/IPEC.2010.5543703

Filename

5543703