Hostname: page-component-84b7d79bbc-l82ql Total loading time: 0 Render date: 2024-07-25T16:38:48.615Z Has data issue: false hasContentIssue false
  • English
  • Français

SiC-Based Power Converters

Published online by Cambridge University Press:  01 February 2011

Leon Tolbert ,
Hui Zhang ,
Burak Ozpineci  and
Madhu S. Chinthavali
Leon Tolbert
Affiliation:
tolbert@utk.edu, The University of Tennessee, Electrical Engineering and Computer Science, 414 Ferris Hall, Knoxville, TN, 37996-2100, United States, 865-974-2881, 865-974-5483
Hui Zhang
Affiliation:
hzhang18@utk.edu, The University of Tennessee, Electrical Engineering and Computer Science, 414 Ferris Hall, Knoxville, TN, 37996-2100, United States
Burak Ozpineci
Affiliation:
ozpinecib@ornl.gov, Oak Ridge National Laboratory, Power Electronics and Electric Machinery Research Center, 2360 Cherahala Blvd., Knoxville, TN, 37932, United States
Madhu S. Chinthavali
Affiliation:
chinthavalim@ornl.gov, Oak Ridge National Laboratory, Power Electronics and Electric Machinery Research Center, 2360 Cherahala Blvd., Knoxville, TN, 37932, United States
Get access

Abstract

The advantages that silicon carbide (SiC) based power electronic devices offer are being realized by using prototype or experimental devices in many different power applications ranging from medium voltage to high voltage or for high temperature or high switching frequency applications. The main advantages of using SiC-based devices are reduced thermal management requirements and smaller passive components which result in higher power density. An overview of the SiC research effort at Oak Ridge National Laboratory (ORNL) and The University of Tennessee (UT) is presented in this paper.

Keywords

deviceselectrical propertiessimulation
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 1069: Symposium D – Silicon Carbide 2008—Materials, Processing and Devices , 2008 , 1069-D12-01
Copyright
Copyright © Materials Research Society 2008

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

1. Zhang, H.,Tolbert, L.M.,Ozpineci, B.,IEEEWork shopon Computersin Power Electronics (2006) pp.199204.Google Scholar
2..Zhang, H.,Tolbert, L.M.,Ozpineci, B.,Chinthavali, M., IEEE Industry Applications Society Annual Meeting(2005),pp. 26302634.Google Scholar
3. Ozpineci, B., Tolbert, L.M., IEEE Power Electronics Letters, vol.1 (2003), pp.5457.Google Scholar
4. Ozpineci, B., Chinthavali, M., Tolbert, L.M., International Journal of High Speed Electronic sand Systems, vol.16, (2006), pp. 545556.Google Scholar
5. Baliga, B.J., Modern Power Devices, 1987.Google Scholar
6. Roschke, M., Schwierz, F.,.Electron mobility models for 4H, 6H,and 3CSiC,. IEEE Transactionson Electron Devices, vol. 48, (2001), pp.14421447.Google Scholar
7. Zhang, H., Ph.D. Dissertation of the University of Tennessee, Knoxville, December 2007.Google Scholar
8. Zhang, H., Tolbert, L.M., Ozpineci, B., Chinthavali, M., IEEE Industry Applications Society Annual Meeting (2006), pp.346350.Google Scholar
9. Chinthavali, M., Tolbert, L.M., Ozpineci, B.,IEEE Power Engineering General Meeting (2004), pp.680685.Google Scholar
10. Ozpineci, B., Chinthavali, M., Kashyap, A., Tolbert, L.M., Mantooth, A., IEEE Applied Power Electronics Conference (2006), pp.448454.Google Scholar
11. Barlow, F.D., Elshabini, A., Vanam, K., Ozpineci, B., Marlino, L.D., Chinthavali, M.S., Tolbert, L.M., IMAPS 40th International Symposiumon Microelectronics (2007).Google Scholar
12. Huque, M., Vijayaraghavan, R., Zhang, M., Blalock, B., Tolbert, L., Islam, S., IEEE Power Electronics Specialist Conference (2007), pp.14911495.Google Scholar
13. Tolbert, L. M., Zhang, H., Chinthavali, M.S., Ozpineci, B., Materials Science Forum, vols. 556-557 (2007), pp. 965970.Google Scholar