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This paper presents the PIA's research on the development and application of Silicon Carbide power MOSFETs. It is an in-depth analysis of the practical issues in the development of high-voltage, low-loss, and high-speed Silicon Carbide power MOSFETs. The paper also presents a brief summary of the many applications of Silicon Carbide power MOSFETs.
This paper provides a general overview of the SiC technologies and applications. It highlights the advantages of SiC over mainstream Si technology, SiC power devices, and SiC-related equipment. It also discusses the key issues related to SiC power devices. This paper is an in-depth analysis of the practical issues in the development of high-voltage, low-loss, and high-speed Silicon Carbide power MOSFETs, which includes: the SiC metal gate material; the SiC channel material; the SiC doping material; the SiC bulk material; the SiC epitaxial layer; the MOSFET structure; the MOSFET device models; the source-gate (and drain-gate) models; the transistor-level simulation and measurement; the design rules; and the device characterization methods. It also discusses the key issues related to SiC power devices, such as the SiC-based DMOS/UVMOS family of devices, the SiC-based IGBT family of devices, the SiC-based HV-IBC family of devices, the SiC-based power MOSFET family of devices, the SiC-based power MOSFET’s application in power supplies, and the SiC-based power MOSFET's application in high-voltage switching devices.
This paper explores a large portion of the SiC power semiconductor devices applications. It discusses a large portion of the SiC power devices and MOSFETs devices, such as the SiC MOSFETs, the SiC DMOS transistors, and the SiC IGBTs. It discusses the safety aspects of the SiC power device from the point of view of design rules and issues, such as anti-saturation, earth leakage, latch-up, and stress-induced switching.
This paper covers the theory of power loss in SiC MOSFETs; the design considerations of SiC MOSFETs; and the advanced driver ICs for SiC MOSFETs. It provides a detailed discussion of the SiC MOSFET power loss, the maximum currents and the optimum gate resistors for the ICs.
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