Static Performance of 20 A, 1200 V 4H-SiC Power MOSFETs at Temperatures of −187°C to 300°C

Abstract

Silicon carbide (4H-SiC) power metal–oxide–semiconductor field-effect transistors (MOSFETs) have been attracting tremendous attention for high-power applications at a wide range of operating temperatures, owing to their normally-off characteristics, high-speed switching operation, avalanche capability, and low on-resistance. To optimize performance of 4H-SiC MOSFETs for various applications at different temperatures, it is important to understand the mechanisms of temperature dependence of the key parameters, such as on-resistance, threshold voltage, and metal–oxide–semiconductor (MOS) channel mobility. We report on the temperature dependence of the on-resistance of 20 A, 1200 V 4H-SiC power MOSFETs for temperatures ranging from −187°C to 300°C. The MOSFET showed normally-off characteristics throughout the entire experimental temperature range. Different temperature dependences of the total on-resistance in different temperature regimes have been observed. Due to the poor MOS channel mobility and the low free carrier concentration in the inversion channel of the 4H-SiC MOSFET, the MOS channel resistance is the dominant part of the total on-resistance. This was also found to be true in a 4H-SiC long-channel lateral MOSFET.