A Low Gate Turn-OFF Impedance Driver for Suppressing Crosstalk of SiC MOSFET Based on Different Discrete Packages

Because of higher switching speed of silicon carbide MOSFET, the crosstalk in a phase-leg configuration will be more serious, which hinders the increase of switching frequency and lowers the reliability of the power electronic equipment. The displacement current of the gate-drain capacitor and the voltage drop on the common-source inductors can induce the crosstalk. In order to suppress the crosstalk, this paper proposes a novel gate driver, in which two additional capacitors are added to create the low turn-off gate impedance. With this proposed driver, the common-source parasitic inductor can be decoupled from the gate loop and the displacement current of the gate-drain capacitor can be bypassed. In addition, the operating principle and the parameters design are also analyzed. Finally, the crosstalk in the non-Kelvin package and the Kelvin package are tested by experiments, the validity of the analysis and the effectiveness for suppression the crosstalk are proved as well.