Power Loss Analysis in a SiC/IGBT Propulsion Inverter Including Blanking Time, MOSFET’s Reverse Conduction and the Effect of Thermal Feedback Using a PMSM Model

Quantitative Analysis of Efficiency Improvement of a Propulsion Drive by Using SiC Devices: A Case of Study

Kumar, Kundan
Bertoluzzo, Manuele
Buja, Giuseppe
Ortenzi, Fernando

January 2017

One of the emerging research topics in the propulsion drive of the electric vehicles is the improvem...

Investigation of parasitic turn-ON in silicon IGBT and Silicon Carbide MOSFET devices : a technology evaluation

Jahdi, Saeed
Alatise, Olayiwola M.
Ortiz Gonzalez, Jose Angel
Gammon, P. M.
Ran, Li
Mawby, P. A. (Philip A.)

October 2015

This paper investigates the switching rate and temperature dependence of parasitic (false) turn-on o...

Power losses comparison between Silicon Carbide and Silicon devices for an isolated DC-DC converter

Pellitteri F.
Busacca A.
Martorana C.
Miceli R.
Stivala S.
Messina A. A.
Calabretta M.
Vinciguerra V.

July 2021

In recent years, new efficient power devices have been implemented. Silicon Carbide has replaced sil...

Energy Loss Analysis in a SiC/IGBT Propulsion Inverter over Drive Cycles Considering Blanking time, MOSFET\u27s Reverse Conduction and the Effect of Thermal Feedback

Amirpour, Sepideh
Thiringer, Torbj\uf6rn
Hagstedt, Dan

January 2020

This paper presents a comparison of power and energy losses for two silicon carbide (SiC) and one si...

Analytical Conduction Loss Calculation of a MOSFET Three-Phase Inverter Accounting for the Reverse Conduction and the Blanking Time

Acquaviva, Alessandro
Rodionov, Artem
Kersten, Anton
Thiringer, Torbj\uf6rn
Liu, Yujing

January 2021

The reverse conduction capability of MOSFETs is beneficial for the efficiency of a three-phase inver...

A study on power losses of the 50 kVA SiC converter including reverse conduction phenomenon

Rąbkowski, J.
Płatek, T.

January 2016

This paper deals with performance of the 50 kVA three-phase converter built with switches based on S...

Mission Profile Analysis of a SiC Hybrid Module for Automotive Traction Inverters and its Experimental Power-loss Validation with Electrical and Calorimetric Methods

Pai, A.P.
Reiter, T.
Vodyakho, O.
Maerz, M.

January 2018

This paper investigates the efficiency benefits of replacing the Silicon diodes of a commercial IGBT...

The potential of SiC Cascode JFETs in electric vehicle traction inverters

Wu, Ruizhu
Gonzalez, Jose Ortiz
Davletzhanova, Zarina
Mawby, Philip. A.
Alatise, Olayiwola M.

December 2019

The benefits of implementing SiC devices in EV powertrains has been widely reported in various studi...

Mission-Profile-Based Lifetime Study for SiC/IGBT Modules in a Propulsion Inverter

Amirpour, Sepideh
Thiringer, Torbj\uf6rn
Hagstedt, Dan

January 2021

This work studies the lifetime of two silicon carbide (SiC) and one silicon insulated gate bipolar t...

Energy efficiency of a SiC MOSFET propulsion inverter accounting for the MOSFET\u27s reverse conduction and the blanking time

Acquaviva, Alessandro
Thiringer, Torbj\uf6rn

January 2017

MOSFET devices have a body diode that allows reverse conduction, additionally, when a negative drain...

SiC MOSFETs for future motor drive applications

Tiwari, Subhadra
Midtgård, Ole-Morten
Undeland, Tore Marvin

January 2016

This paper investigates the switching performance of six-pack SiC MOSFET and Si IGBT modules for mot...

Comprehensive Comparison between Sic-mosfets and Si-igbts Based Electric Vehicle Traction Systems under Low Speed and Light Load

Ding, Xiaofeng
Du, Min
Zhou, Tong
Guo, Hong
Zhang, Chengming
Chen, Feida

June 2016

AbstractIn this paper, the performance of both SiC-MOSFETs and Si-IGBTs based electric vehicle (EV) ...

Influence of PWM methods in semiconductor losses of 15kVA three-phase SiC inverter for aircraft applications

Cougo, Bernardo
Tran, Duc-Hoan
Segond, Gilles
Hilal, Alaa

November 2017

In near future, modern aircrafts will be more electrical, having more power converters in different ...

Fast switching SiC cascode JFETs for EV traction inverters

Wu, Ruizhu
Gonzalez, Jose Ortiz
Davletzhanova, Zarina
Mawby, Philip. A.
Alatise, Olayiwola M.

June 2020

This paper investigates the potential performance of high speed SiC cascode JFETs in EV traction inv...

Quantitative Analysis of Efficiency Improvement of a Propulsion Drive by Using SiC Devices: A Case of Study

Kundan Kumar
Manuele Bertoluzzo
Giuseppe Buja
Fernando Ortenzi

January 2017

One of the emerging research topics in the propulsion drive of the electric vehicles is the improvem...

Quantitative Analysis of Efficiency Improvement of a Propulsion Drive by Using SiC Devices: A Case of Study

Kumar, Kundan
Bertoluzzo, Manuele
Buja, Giuseppe
Ortenzi, Fernando

January 2017

One of the emerging research topics in the propulsion drive of the electric vehicles is the improvem...

Investigation of parasitic turn-ON in silicon IGBT and Silicon Carbide MOSFET devices : a technology evaluation

Jahdi, Saeed
Alatise, Olayiwola M.
Ortiz Gonzalez, Jose Angel
Gammon, P. M.
Ran, Li
Mawby, P. A. (Philip A.)

October 2015

This paper investigates the switching rate and temperature dependence of parasitic (false) turn-on o...

Power losses comparison between Silicon Carbide and Silicon devices for an isolated DC-DC converter

Pellitteri F.
Busacca A.
Martorana C.
Miceli R.
Stivala S.
Messina A. A.
Calabretta M.
Vinciguerra V.

July 2021

In recent years, new efficient power devices have been implemented. Silicon Carbide has replaced sil...

Energy Loss Analysis in a SiC/IGBT Propulsion Inverter over Drive Cycles Considering Blanking time, MOSFET\u27s Reverse Conduction and the Effect of Thermal Feedback

Amirpour, Sepideh
Thiringer, Torbj\uf6rn
Hagstedt, Dan

January 2020

This paper presents a comparison of power and energy losses for two silicon carbide (SiC) and one si...

Analytical Conduction Loss Calculation of a MOSFET Three-Phase Inverter Accounting for the Reverse Conduction and the Blanking Time

Acquaviva, Alessandro
Rodionov, Artem
Kersten, Anton
Thiringer, Torbj\uf6rn
Liu, Yujing

January 2021

The reverse conduction capability of MOSFETs is beneficial for the efficiency of a three-phase inver...

A study on power losses of the 50 kVA SiC converter including reverse conduction phenomenon

Rąbkowski, J.
Płatek, T.

January 2016

This paper deals with performance of the 50 kVA three-phase converter built with switches based on S...

Mission Profile Analysis of a SiC Hybrid Module for Automotive Traction Inverters and its Experimental Power-loss Validation with Electrical and Calorimetric Methods

Pai, A.P.
Reiter, T.
Vodyakho, O.
Maerz, M.

January 2018

This paper investigates the efficiency benefits of replacing the Silicon diodes of a commercial IGBT...

The potential of SiC Cascode JFETs in electric vehicle traction inverters

Wu, Ruizhu
Gonzalez, Jose Ortiz
Davletzhanova, Zarina
Mawby, Philip. A.
Alatise, Olayiwola M.

December 2019

The benefits of implementing SiC devices in EV powertrains has been widely reported in various studi...

Mission-Profile-Based Lifetime Study for SiC/IGBT Modules in a Propulsion Inverter

Amirpour, Sepideh
Thiringer, Torbj\uf6rn
Hagstedt, Dan

January 2021

This work studies the lifetime of two silicon carbide (SiC) and one silicon insulated gate bipolar t...

Energy efficiency of a SiC MOSFET propulsion inverter accounting for the MOSFET\u27s reverse conduction and the blanking time

Acquaviva, Alessandro
Thiringer, Torbj\uf6rn

January 2017

MOSFET devices have a body diode that allows reverse conduction, additionally, when a negative drain...

SiC MOSFETs for future motor drive applications

Tiwari, Subhadra
Midtgård, Ole-Morten
Undeland, Tore Marvin

January 2016

This paper investigates the switching performance of six-pack SiC MOSFET and Si IGBT modules for mot...

Comprehensive Comparison between Sic-mosfets and Si-igbts Based Electric Vehicle Traction Systems under Low Speed and Light Load

Ding, Xiaofeng
Du, Min
Zhou, Tong
Guo, Hong
Zhang, Chengming
Chen, Feida

June 2016

AbstractIn this paper, the performance of both SiC-MOSFETs and Si-IGBTs based electric vehicle (EV) ...

Influence of PWM methods in semiconductor losses of 15kVA three-phase SiC inverter for aircraft applications

Cougo, Bernardo
Tran, Duc-Hoan
Segond, Gilles
Hilal, Alaa

November 2017

In near future, modern aircrafts will be more electrical, having more power converters in different ...

Fast switching SiC cascode JFETs for EV traction inverters

Wu, Ruizhu
Gonzalez, Jose Ortiz
Davletzhanova, Zarina
Mawby, Philip. A.
Alatise, Olayiwola M.

June 2020

This paper investigates the potential performance of high speed SiC cascode JFETs in EV traction inv...

Quantitative Analysis of Efficiency Improvement of a Propulsion Drive by Using SiC Devices: A Case of Study

Kundan Kumar
Manuele Bertoluzzo
Giuseppe Buja
Fernando Ortenzi

January 2017

One of the emerging research topics in the propulsion drive of the electric vehicles is the improvem...

Quantitative Analysis of Efficiency Improvement of a Propulsion Drive by Using SiC Devices: A Case of Study

Kumar, Kundan
Bertoluzzo, Manuele
Buja, Giuseppe
Ortenzi, Fernando

January 2017

One of the emerging research topics in the propulsion drive of the electric vehicles is the improvem...

Investigation of parasitic turn-ON in silicon IGBT and Silicon Carbide MOSFET devices : a technology evaluation

Jahdi, Saeed
Alatise, Olayiwola M.
Ortiz Gonzalez, Jose Angel
Gammon, P. M.
Ran, Li
Mawby, P. A. (Philip A.)

October 2015

This paper investigates the switching rate and temperature dependence of parasitic (false) turn-on o...

Power losses comparison between Silicon Carbide and Silicon devices for an isolated DC-DC converter

Pellitteri F.
Busacca A.
Martorana C.
Miceli R.
Stivala S.
Messina A. A.
Calabretta M.
Vinciguerra V.

July 2021

In recent years, new efficient power devices have been implemented. Silicon Carbide has replaced sil...

Power Loss Analysis in a SiC/IGBT Propulsion Inverter Including Blanking Time, MOSFET’s Reverse Conduction and the Effect of Thermal Feedback Using a PMSM Model

Abstract

Extracted data

Power Loss Analysis in a SiC/IGBT Propulsion Inverter Including Blanking Time, MOSFET’s Reverse Conduction and the Effect of Thermal Feedback Using a PMSM Model

Abstract

Extracted data

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