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Due to wider band gap of silicon carbide (SiC) compared to silicon (Si), MOSFET made in SiC has considerably lower drift region resistance, which is a significant resistive component in high-voltage power devices. With low on-state resistance and its inherently low switching loss, SiC MOSFETs can offer much improved efficiency and compact size for the converter compared to those using Si devices....
The purpose of this paper is to present a physics-based electro-thermal Saber®∗ model and parameter extraction sequence for high-voltage SiC buffer layer n-channel insulated gate bipolar transistors (IGBTs). This model was developed by modifying and extending the previously developed physics-based silicon buffer layer IGBT electrothermal model and IGBT Model Parameter extrACtion Tools (IMPACT) to...
Advanced high-voltage (10 kV–15 kV) silicon carbide (SiC) power MOSFETs described in this paper have the potential to significantly impact the system performance, size, weight, high-temperature reliability, and cost of next-generation energy conversion and transmission systems. In this paper, we report our recently developed 10 kV/20 A SiC MOSFETs with a chip size of 8.1 × 8.1 mm2 and a specific on-resistance...
Silicon Carbide (SiC) has wider band gap compared to Silicon (Si) and hence MOSFET made in SiC has considerably lower drift region resistance, which is a significant resistive component in high-voltage power devices. Due to low on-state resistance combined with its inherently low switching loss, SiC MOSFET is an excellent candidate for high power converter design. With its lower power loss and operation...
We present our latest developments in ultra high voltage 4H-SiC IGBTs. A 4H-SiC P-IGBT, with a chip size of 6.7 mm × 6.7 mm and an active area of 0.16 cm2 exhibited a record high blocking voltage of 15 kV, while showing a room temperature differential specific on-resistance of 24 mΩ-cm2 with a gate bias of −20 V. A 4H-SiC N-IGBT with the same area showed a blocking voltage of 12.5 kV, and demonstrated...
The need for power semiconductor devices capable of high-voltage, high-frequency, and high-temperature operation has been continuously growing, especially for energy conversion system and related power grid applications. However, current power converters built with silicon switches are quite bulky and inefficient, making their utilization difficult in practical energy conversion and power grid systems...
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