Future MVDC shipboard power systems will be characterized by a progressive employment of power converters. In this paper, starting from a real case-study, the focus is on two AC/DC power conversion stages forming the MVDC bus of a shipboard power system. A preliminary design of the AC/DC power conversion stages and their control system is provided in order to verify feasible operations. A coordination strategy based on the droop control technique is adopted achieving load power sharing. Simulation results verify proper operation also in case of pulsating loads.
Early Design of AC/DC Interface Converters and Control System for a MW-scale MVDC Shipboard Power System
Rosa Anna Mastromauro
;Giorgio Sulligoi;Daniele Bosich
2018-01-01
Abstract
Future MVDC shipboard power systems will be characterized by a progressive employment of power converters. In this paper, starting from a real case-study, the focus is on two AC/DC power conversion stages forming the MVDC bus of a shipboard power system. A preliminary design of the AC/DC power conversion stages and their control system is provided in order to verify feasible operations. A coordination strategy based on the droop control technique is adopted achieving load power sharing. Simulation results verify proper operation also in case of pulsating loads.File in questo prodotto:
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