Add to ORKGThis paper investigates the switching performance of six-pack SiC MOSFET and Si IGBT modules for motor drive applications. Both the modules have same packaging and voltage rating (1.2 kV). The three bridge legs of the modules are paralleled forming a single half-bridge configuration for achieving higher output power. Turn-on and turn-off switching energy losses are measured using a standard double pulse methodology. The conduction losses from the datasheet and the switching energy losses obtained from the laboratory measurements are used as a look up table input when simulating the detailed inverter losses in a three-phase motor drive inverter. The total inverter loss is plotted for different switching frequencies in order to illustrate the...
In this thesis, the performance of the full Silicon Carbide (SiC) half-bridge power module BSM120D12...
Silicon carbide (SiC) switching power devices (MOSFETs, JFETs) of 1200 V rating are now commercially...
In this paper, a comparative performance evaluation of a 1.2 kV SiC MOSFET module and a 1.2 kV Si IG...
Space and weight are critical factors for offshore wind applications during the construction, operat...
Silicon Carbide (SiC) MOSFETs, as wide-bandgap semiconductor device, are becoming increasingly popul...
Silicon Carbide (SiC) MOSFETs, as wide-bandgap semiconductor device, are becoming increasingly popul...
The widespread deployment of electric vehicles (EVs) requires high efficiency of traction inverters ...
Space and weight are critical factors for offshore wind applications during the construction, operat...
The widespread deployment of electric vehicles (EVs) requires high efficiency of traction inverters ...
In this paper, a comparative performance evaluation of a 1.2 kV SiC MOSFET module and a 1.2 kV Si IG...
One of the emerging research topics in the propulsion drive of the electric vehicles is the improvem...
One of the emerging research topics in the propulsion drive of the electric vehicles is the improvem...
—In this paper, the switching performance of asix-pack SiC MOSFET module (CCS050M12CM2) is inves-tig...
—In this paper, the switching performance of asix-pack SiC MOSFET module (CCS050M12CM2) is inves-tig...
The recent commercialization SiC technology, has made it desirable to use SiC in electrical motor dr...
In this thesis, the performance of the full Silicon Carbide (SiC) half-bridge power module BSM120D12...
Silicon carbide (SiC) switching power devices (MOSFETs, JFETs) of 1200 V rating are now commercially...
In this paper, a comparative performance evaluation of a 1.2 kV SiC MOSFET module and a 1.2 kV Si IG...
Space and weight are critical factors for offshore wind applications during the construction, operat...
Silicon Carbide (SiC) MOSFETs, as wide-bandgap semiconductor device, are becoming increasingly popul...
Silicon Carbide (SiC) MOSFETs, as wide-bandgap semiconductor device, are becoming increasingly popul...
The widespread deployment of electric vehicles (EVs) requires high efficiency of traction inverters ...
Space and weight are critical factors for offshore wind applications during the construction, operat...
The widespread deployment of electric vehicles (EVs) requires high efficiency of traction inverters ...
In this paper, a comparative performance evaluation of a 1.2 kV SiC MOSFET module and a 1.2 kV Si IG...
One of the emerging research topics in the propulsion drive of the electric vehicles is the improvem...
One of the emerging research topics in the propulsion drive of the electric vehicles is the improvem...
—In this paper, the switching performance of asix-pack SiC MOSFET module (CCS050M12CM2) is inves-tig...
—In this paper, the switching performance of asix-pack SiC MOSFET module (CCS050M12CM2) is inves-tig...
The recent commercialization SiC technology, has made it desirable to use SiC in electrical motor dr...
In this thesis, the performance of the full Silicon Carbide (SiC) half-bridge power module BSM120D12...
Silicon carbide (SiC) switching power devices (MOSFETs, JFETs) of 1200 V rating are now commercially...
In this paper, a comparative performance evaluation of a 1.2 kV SiC MOSFET module and a 1.2 kV Si IG...