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SiC-based Triple Active Bridge Converter for Shipboard Micro-grid Applications with Efficient Energy Storage (2018)
Conference Proceeding
Wang, Z., & Castellazzi, A. (2018). SiC-based Triple Active Bridge Converter for Shipboard Micro-grid Applications with Efficient Energy Storage. https://doi.org/10.1109/ISGWCP.2018.8634456

Silicon Carbide (SiC) MOSFET power module has became commercially available in the past few years, and it is attractive in dual/triple active bridge converters to replace conventional Si-IGBTs. The capability to connect with the energy storage system... Read More about SiC-based Triple Active Bridge Converter for Shipboard Micro-grid Applications with Efficient Energy Storage.

Model-Predictive-Control for Dual-Active-Bridge Converters with Triple Phase Shift in Naval Shipboard DC Micro-grids Supplying Pulsed Power Loads (2018)
Conference Proceeding
Chen, L., Wang, Z., Shao, S., Tarisciotti, L., Dragicevic, T., & Wheeler, P. (in press). Model-Predictive-Control for Dual-Active-Bridge Converters with Triple Phase Shift in Naval Shipboard DC Micro-grids Supplying Pulsed Power Loads

Dedicated Energy Storage System (ESS) has been an integral part of the shipboard micro-grids in naval vessels. Dual-Active-Bridge (DAB) converters are often chosen to be the interface between the ESS and the medium voltage DC bus due to isolation cap... Read More about Model-Predictive-Control for Dual-Active-Bridge Converters with Triple Phase Shift in Naval Shipboard DC Micro-grids Supplying Pulsed Power Loads.

Device loss model of a fully SiC based dual active bridge considering the effect of synchronous rectification and deadtime (2018)
Conference Proceeding
Wang, Z., & Castellazzi, A. (2018). Device loss model of a fully SiC based dual active bridge considering the effect of synchronous rectification and deadtime. In Proceedings - 2017 IEEE Southern Power Electronics Conference (SPEC) (1-7). https://doi.org/10.1109/SPEC.2017.8333662

It is becoming a great interest to employ SiC based power devices in dual active bridge (DAB) converter as an alternative to conventional Si-IGBT, due to its higher switching frequency potential, smaller switching losses as well as the capability to... Read More about Device loss model of a fully SiC based dual active bridge considering the effect of synchronous rectification and deadtime.