Silicon Carbide (SiC) MOSFETs, as wide-bandgap semiconductor device, are becoming increasingly popular. They can switch at much higher frequency when compared to their silicon (Si) counterparts and can viably supply high-speed electrical drives. High-speed machines are profitably used in aeronautical or electric vehicle applications, offering drastic reduction of encumbrance and weight. On the other hand, industrial motor drives usually include a long-shielded cable to connect the inverter to the induction motor. This, together with high frequency operation of the SiC devices, emphasizes the effect of parasitics such as stray inductances and capacitances, which generates reflected wave transient overvoltage on motor terminals. In this paper, switching performance of SiC MOSFETs is systematically studied and compared to the performance of Si devices for low-voltage induction motor loads. For the Si-based inverter configuration the Neutral Point Clamped (NPC) 3-level inverter has been chosen, being it highly utilized in industrial applications. The two systems are compared in terms of switching performance, overvoltages, and power losses for the same output voltage capabilities. Simulations are carried out by realistic models of power switch modules. The goal was to analyze potential solutions for switching performance improvement and mitigation of reflected waves, as well as for future analysis of the electric aging phenomena.

Loncarski J., Monopoli V.G., Leuzzi R., Cupertino F. (2019). Operation analysis and comparison of Multilevel Si IGBT and 2-level SiC MOSFET inverter-based high-speed drives with long power cable. Institute of Electrical and Electronics Engineers Inc. [10.1109/ICCEP.2019.8890074].

Operation analysis and comparison of Multilevel Si IGBT and 2-level SiC MOSFET inverter-based high-speed drives with long power cable

Loncarski J.
;
2019

Abstract

Silicon Carbide (SiC) MOSFETs, as wide-bandgap semiconductor device, are becoming increasingly popular. They can switch at much higher frequency when compared to their silicon (Si) counterparts and can viably supply high-speed electrical drives. High-speed machines are profitably used in aeronautical or electric vehicle applications, offering drastic reduction of encumbrance and weight. On the other hand, industrial motor drives usually include a long-shielded cable to connect the inverter to the induction motor. This, together with high frequency operation of the SiC devices, emphasizes the effect of parasitics such as stray inductances and capacitances, which generates reflected wave transient overvoltage on motor terminals. In this paper, switching performance of SiC MOSFETs is systematically studied and compared to the performance of Si devices for low-voltage induction motor loads. For the Si-based inverter configuration the Neutral Point Clamped (NPC) 3-level inverter has been chosen, being it highly utilized in industrial applications. The two systems are compared in terms of switching performance, overvoltages, and power losses for the same output voltage capabilities. Simulations are carried out by realistic models of power switch modules. The goal was to analyze potential solutions for switching performance improvement and mitigation of reflected waves, as well as for future analysis of the electric aging phenomena.
2019
ICCEP 2019 - 7th International Conference on Clean Electrical Power: Renewable Energy Resources Impact
503
509
Loncarski J., Monopoli V.G., Leuzzi R., Cupertino F. (2019). Operation analysis and comparison of Multilevel Si IGBT and 2-level SiC MOSFET inverter-based high-speed drives with long power cable. Institute of Electrical and Electronics Engineers Inc. [10.1109/ICCEP.2019.8890074].
Loncarski J.; Monopoli V.G.; Leuzzi R.; Cupertino F.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/797466
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