The paper deals with the dead-time impact on the reverse conduction of low-voltage GaN FETs in inverter topology for motor control applications. The current variation in AC motor drive leads to a different dead-time losses mechanism compared to the DC-DC converter. In the paper, the dead-time in the inverter leg is correlated with both current variation and GaN reverse conduction, through an experimental evaluation. Furthermore, a comparison of the GaN FET with a MOSFET with similar parameters in reverse conduction operations is carried out to show the similarities and differences in switching behavior and power losses. Finally, the paper aims to give designers a guideline on the limits and optimum dead-time selection in a GaN FET based inverter leg for motor control applications.

Experimental Evaluation of Dead Time Reverse Conduction Losses in Motor Drives Applications / Palma, M.; Musumeci, S.; Mandrile, F.; Barba, V.. - (2022), pp. 524-529. (Intervento presentato al convegno 2022 International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management, PCIM Europe 2022 tenutosi a Norimberga (Germania) nel 10-12 maggio 2022) [10.30420/565822072].

Experimental Evaluation of Dead Time Reverse Conduction Losses in Motor Drives Applications

Musumeci S.;Mandrile F.;Barba V.
2022

Abstract

The paper deals with the dead-time impact on the reverse conduction of low-voltage GaN FETs in inverter topology for motor control applications. The current variation in AC motor drive leads to a different dead-time losses mechanism compared to the DC-DC converter. In the paper, the dead-time in the inverter leg is correlated with both current variation and GaN reverse conduction, through an experimental evaluation. Furthermore, a comparison of the GaN FET with a MOSFET with similar parameters in reverse conduction operations is carried out to show the similarities and differences in switching behavior and power losses. Finally, the paper aims to give designers a guideline on the limits and optimum dead-time selection in a GaN FET based inverter leg for motor control applications.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2979038