Comparison of Four Cell Topologies for 1.2-kV Accumulation- and Inversion-Channel 4H-SiC MOSFETs: Analysis and Experimental Results

The electrical characteristics of 1.2-kV-rated 4H-SiC accumulation (Acc) and inversion (Inv) channel MOSFETs with linear, square, hexagonal, and octagonal cell topologies fabricated using the same design rules and process flow in a 6-in foundry are compared for the first time. TCAD numerical simulations have been conducted to analyze the structures. For all the cell topologies, it was found that the Acc MOSFETs have lower specific ON-resistance (RON,sp) than the Inv counterparts due to higher channel mobility resulting in 1.3-2.0× smaller high-frequency figure-of-merit (HF-FOM[RON × Qgd]), where Qgd is the gate-to-drain charge. It is observed thatthe square and hexagonal cell topologies with the same structural dimensions show similar electrical performance. When compared with the standard linear cell topology: 1) the hexagonal cell topology has 1.15× better specific ON-resistance and 1.12× worse HF-FOM[RON × Qgd] and 2) the octagonal cell topology has 1.5× worse specific ON-resistance and 1.4× better HF-FOM[RON × Qgd]. In addition, the octagonal cell topology has a much superior figure-of-merit (FOM[Ciss/Crss]), where Ciss is the input capacitance and Cgd is the reverse transfer capacitance.