Litcius/Paper detail

Packaging Design of 15 kV SiC Power Devices With High-Voltage Encapsulation

Junjie Li, Yu Liang, Yunhui Mei, Xinling Tang, Guo‐Quan Lu

2022IEEE Transactions on Dielectrics and Electrical Insulation30 citationsDOI

Abstract

Silicon carbide (SiC) is capable of improving the blocking voltage of power devices. It is essential to package SiC power devices for high-voltage applications. This article proposes a high-voltage packaging method for >15-kV SiC power devices by designing an optimized stacked direct bond copper (DBC) substrate with a copper ring and a field-dependent conductivity (FDC) encapsulation using SiC as the filler. The proposed FDC encapsulation is proven as a promising encapsulation as commercial silicone. The partial discharge initial voltage (PDIV) of the demonstrated module using the proposed method can be improved to at least 18.31 kV, which is increased by 163.77% compared with the typical 34-mm insulated gate bipolar transistor (IGBT) modules. The maximum voltage rating of the demonstrated module could be enhanced to at least 15 kV with a sufficient protection margin, i.e., 20%. It gives guidance to the packaging of >15-kV SiC power devices.

Topics & Concepts

Materials scienceSilicon carbideInsulated-gate bipolar transistorHigh voltageOptoelectronicsEncapsulation (networking)VoltagedBcPower moduleBipolar junction transistorPower semiconductor deviceElectrical engineeringTransistorComposite materialComputer sciencePower (physics)CMOSEngineeringPhysicsQuantum mechanicsComputer networkSilicon Carbide Semiconductor TechnologiesElectromagnetic Compatibility and Noise SuppressionHigh voltage insulation and dielectric phenomena
Packaging Design of 15 kV SiC Power Devices With High-Voltage Encapsulation | Litcius