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Applications of combined MOSFET-IGBT power leg with reduced switching losses

Vencislav C Valchev, Angel S Marinov and Alex Van den Bossche UGent (2008) Information, Communication and Energy Systems and Technologies, 43rd International scientific conference, Proceedings. p.272-275
abstract
This paper discusses power legs built upon the combination of a MOSFET and an IGBT. The suggested combined use of those different switches is intended to be applied in PWM controlled single and three phase inverters. The main advantage of the presented topology is the reduced switching losses in the overall inverter topology compared to the classical pure IGBT and MOSFET topologies. The paper presents and compares experimental results for the proposed power leg and the conventional pure IGBTs and pure MOSFETs legs. Realized applications of the proposed power leg are shown.
Please use this url to cite or link to this publication:
author
organization
year
type
conference
publication status
published
subject
keyword
switching losses., MOSFET, IGBT
in
Information, Communication and Energy Systems and Technologies, 43rd International scientific conference, Proceedings
pages
272 - 275
conference name
43rd International scientific conference on Information, Communication and Energy Systems and Technologies (ICEST 2008)
conference location
Nis, Serbia
conference start
2008-06-25
conference end
2008-06-27
ISBN
9788685195594
language
English
UGent publication?
yes
classification
C1
copyright statement
I have retained and own the full copyright for this publication
id
714943
handle
http://hdl.handle.net/1854/LU-714943
date created
2009-07-07 13:46:00
date last changed
2016-12-19 15:36:19
@inproceedings{714943,
  abstract     = {This paper discusses power legs built upon the combination of a MOSFET and an IGBT. The suggested combined use of those different switches is intended to be applied in PWM controlled single and three phase inverters. The main advantage of the  presented topology is the reduced switching losses in the overall inverter topology compared to the classical pure IGBT and MOSFET topologies. The paper presents and compares experimental results for the proposed power leg and the conventional pure IGBTs and pure MOSFETs legs. Realized applications of the proposed power leg are shown.},
  author       = {Valchev, Vencislav C and Marinov, Angel S and Van den Bossche, Alex},
  booktitle    = {Information, Communication and Energy Systems and Technologies, 43rd International scientific conference, Proceedings},
  isbn         = {9788685195594},
  keyword      = {switching losses.,MOSFET,IGBT},
  language     = {eng},
  location     = {Nis, Serbia},
  pages        = {272--275},
  title        = {Applications of combined MOSFET-IGBT power leg with reduced switching losses},
  year         = {2008},
}

Chicago
Valchev, Vencislav C, Angel S Marinov, and Alex Van den Bossche. 2008. “Applications of Combined MOSFET-IGBT Power Leg with Reduced Switching Losses.” In Information, Communication and Energy Systems and Technologies, 43rd International Scientific Conference, Proceedings, 272–275.
APA
Valchev, V. C., Marinov, A. S., & Van den Bossche, A. (2008). Applications of combined MOSFET-IGBT power leg with reduced switching losses. Information, Communication and Energy Systems and Technologies, 43rd International scientific conference, Proceedings (pp. 272–275). Presented at the 43rd International scientific conference on Information, Communication and Energy Systems and Technologies (ICEST 2008).
Vancouver
1.
Valchev VC, Marinov AS, Van den Bossche A. Applications of combined MOSFET-IGBT power leg with reduced switching losses. Information, Communication and Energy Systems and Technologies, 43rd International scientific conference, Proceedings. 2008. p. 272–5.
MLA
Valchev, Vencislav C, Angel S Marinov, and Alex Van den Bossche. “Applications of Combined MOSFET-IGBT Power Leg with Reduced Switching Losses.” Information, Communication and Energy Systems and Technologies, 43rd International Scientific Conference, Proceedings. 2008. 272–275. Print.