Simulation Study of 4H-SiC High-k Pillar MOSFET With Integrated Schottky Barrier Diode

Abstract: A SiC high-k (HK) split-gate (SG) MOSFET is proposed with a Schottky barrier diode (SBD) integrated between the split gates, and is investigated by numerical TCAD simulation. Results show that it has the same breakdown voltage as the SiC high-k (HK) MOSFET with an optimized and practical k value of 30 for its insulation pillar, which results in the highest breakdown voltage (1857 V). The forward voltage (VF) and reverse recovery charge (QRR) of the device are 0.9 V and 3.49 μC/cm 2 respectively, much lower tha… Show more

“…One method is to apply HK dielectric material in the drift region of TMOS. In [12], a structure is proposed where a HK dielectric region alternates with the drift region laterally. This arrangement increases the electric field strength at the interface, resulting in a more uniform overall electric field distribution and higher BV [12][13][14][15].…”

“…In [12], a structure is proposed where a HK dielectric region alternates with the drift region laterally. This arrangement increases the electric field strength at the interface, resulting in a more uniform overall electric field distribution and higher BV [12][13][14][15]. Another method is to replace the gate dielectric of TMOS with an HK dielectric material [16][17][18].…”

Investigations of 4H‐SiC trench MOSFET with integrated high‐K deep trench and gate dielectric

“…One method is to apply HK dielectric material in the drift region of TMOS. In [12], a structure is proposed where a HK dielectric region alternates with the drift region laterally. This arrangement increases the electric field strength at the interface, resulting in a more uniform overall electric field distribution and higher BV [12][13][14][15].…”

“…In [12], a structure is proposed where a HK dielectric region alternates with the drift region laterally. This arrangement increases the electric field strength at the interface, resulting in a more uniform overall electric field distribution and higher BV [12][13][14][15]. Another method is to replace the gate dielectric of TMOS with an HK dielectric material [16][17][18].…”

Investigations of 4H‐SiC trench MOSFET with integrated high‐K deep trench and gate dielectric

4.87 kV SiC MOSFET Using HfSiOx/SiO2 Gate Dielectrics Combined with PN Pillars

4H–SiC floating junction Schottky barrier diode with compensation layer of engineered cathode structure: Cone-shaped electric field, current density waveform, and applications