Shipboard DC systems, a Critical Overview: Challenges in Primary Distribution, Power Electronics-based Protection, and Power Scalability

TL;DR: A reconfigurable isolated DC/DC converter is proposed for efficient onshore charging in maritime applications, achieving a wide output voltage range of 180-1500V with high power transfer efficiency and alleviating semiconductor device stresses.

TL;DR: This paper presents an open-source, real-time emulation platform for zonal DC microgrids, utilizing a Linux-based controller and a reduced-order model to improve performance, validated through experimental transients and comparison with actual system behavior.

TL;DR: The integration of supercapacitors in a DC shipboard power system with parallel permanent magnet synchronous generators enhances the system’s resilience to disturbances and alters its small-signal stability characteristics. The paper investigates the impact of supercapacitors on the system’s stability and identifies key parameters affecting its small-signal stability.

TL;DR: In this paper, the authors proposed a reconfigurable rectifier based on the voltage-doubler topology for series-resonant dc-dc converter (SRC) for the case of failure in one semiconductor.

TL;DR: In this article, a SiC-SIT circuit breaker using SiC static induction transistors was investigated for 400-V direct current (400-V dc) distribution systems.

TL;DR: The failure in dc-dc converters is investigated, with the aim to identify the most vulnerable devices and discuss solutions for improving the converter's availability.

TL;DR: In this article, the authors presented the test results of an ultrafast (less than 2 ms) medium-voltage hybrid dc circuit breaker prototype that consists of three switching devices: a 15-kV silicon carbide (SiC) emitter turn-off thyristor as the main breaker (MB), a fast acting mechanical switch, and a commutating switch (CS) to quickly divert the primary current to the MB for arcless interruption.