Journal Article10.1109/TPEL.2020.3000855
Scalable Solid-State Bus-Tie Switch for Flexible Shipboard Power Systems
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TL;DR: A scalable solid-state bus-tie switch topology designed initially for low-voltage power-distribution networks, but easily scalable in terms of voltage and current.
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Abstract: The need to increase the efficiency and reduce the operating cost of shipboard dc power distribution networks results in a desire to increase the operating voltage of such installations to the medium-voltage levels. Devices, such as solid state bus-tie switches, are an essential component of such systems, as they allow for system reconfigurations and prevent fault propagation across different sections of the system. This article presents a scalable solid-state bus-tie switch topology designed initially for low-voltage power-distribution networks, but easily scalable in terms of voltage and current. The use of a single active device greatly increases simplicity and reliability of the solution. The ability to extend the current and voltage ratings has been verified on the prototypes through extensive experimental tests in parallel and series connection, respectively. Several methods for fault detection are discussed and further verified experimentally.
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Citations
Session - Power Title: Onboard DC Grid for Enhanced DP Operation in Ships
Jan Fredrik Hansen,Klaus Vanska,Abb Oy +2 more
- 01 Jan 2011
TL;DR: Onboard DC Grid as discussed by the authors is a novel, new technology which is a further development of utilizing DC links that already exists in all propulsion and thruster drives, accomplishing for usually more than 80% of the electrical power consumption on electric propulsion vessels.
52
State-of-the-Art Review on Shipboard Microgrids: Architecture, Control, Management, Protection, and Future Perspectives
TL;DR: In this article , a comprehensive review of shipboard microgrids is provided, including their classifications, control, management, and protection, as well as the most recent research statistics in these areas.
Shipboard Zonal Load Center Modeling and Characterization on Real-Time Simulation Platform
Multan Biswas,Tyler Deese,James Langston,Harsha Ravindra,Karl Schoder,Michael Steurer,Herbert L. Ginn,Christian Schegan +7 more
- 03 Aug 2021
TL;DR: In this paper, a detailed modeling of a Zonal Load Center (ZLC) for a shipboard Power System (SPS) in a Real-Time (RT) simulation platform is presented.
5
Solid-State Technology for Shipboard DC Power Distribution Networks
TL;DR: This article shows how a solid-state bus-tie switch can be employed for soft-starting an unenergized section of a shipboard power distribution network, eliminating the need for additional components aimed specifically at this task.
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