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Design of 1500V/200kW 99.6% Efficiency Dual Active Bridge Converters Based on 1700V SiC Power MOSFET Module

Wei Xu, Rui yang Yu, Zhicheng Guo, Alex Q. Huang

202024 citationsDOIOpen Access PDF

Abstract

High efficiency, high density and galvanically isolated power converters are attractive for medium voltage high power applications. This paper presents a 1.5kV/200kW bidirectional Dual Active Bridge (DAB) converter using a newly developed 1.7kV SiC MOSFET module. The intended application is megawatt scale solid state transformer (SST) and 1500V PV inverter application using modular architecture. One novel model to estimate the turn-off loss using snubber capacitors is proposed and experimentally verified. An optimized PCB-based busbar design is introduced to reduce the voltage overshoot across the SiC device, making the design suitable for 1.5kVdc applications. The mechanism of how the optimized PCB-based busbar can reduce the voltage overshoot is quantitatively interpreted and experimentally verified. The DAB converter achieved an efficiency of 98.85% at 200kW and a maximum of 99.53% at 60kW. The maximum efficiency for series-resonant mode is 99.6% at 85kW and 99.3% at 200kW. The power density is 26W/inch3 (1.6MW/m3) which is much higher than traditional industry products.

Topics & Concepts

SnubberConvertersGalvanic isolationBusbarCapacitorMOSFETTransformerElectrical engineeringElectronic engineeringModular designInverterVoltageMaterials scienceEngineeringComputer scienceTransistorOperating systemSilicon Carbide Semiconductor TechnologiesAdvanced DC-DC ConvertersElectromagnetic Compatibility and Noise Suppression
Design of 1500V/200kW 99.6% Efficiency Dual Active Bridge Converters Based on 1700V SiC Power MOSFET Module | Litcius