This paper presents comparative evaluation and explores the different technologies suitable for the implementation of the Medium Voltage Direct Current (MVDC) electrical supplies for the marine on-board electrical distribution network. To realize the MVDC supply in the range from 5 kV to 25 kV, various technological choices are available during the design process and have a direct influence on the overall system performances. In this work we discuss different prime movers, choice of electrical generators and type of rectifiers. Different configurations are characterized with different metrics, in terms of commercial availability, quality of supply, efficiency, dynamic performance and volume. Multi-phase multi-pulse supply configurations are...
The Navy of tomorrow will require a robust and reconfigurable power system capable of supplying powe...
In recent years there has been rising interest in medium voltage direct current (MVDC) power systems...
Medium Voltage Direct Current (MVDC) power distribution architectures are of immense interest for va...
Medium-voltage direct-current (MVDC) distribution is a possible replacement due to the advancements ...
Medium Voltage DC (MVDC) distribution Power Systems for all-electric ships (AES) can be regarded as ...
A promising solution to improve tomorrow's all-electric ship onboard power system design and perform...
With the improvement in the power electronic technologies, medium voltage dc (MVDC) electrical distr...
Focusing on the relevant pros provided by power conversion onboard introduction (e.g. reduction of p...
This article reports on the design, development, and validation of advanced prototype 2 MVA generati...
This paper presents a complete review of MVDC applications and their required technologies. Four mai...
Medium-voltage direct current (MVDC) systems will be the backbone of power systems in the future nav...
Naval ship propulsion design is evolving from the traditional structure with a main engine driving a...
Integrated Power Systems (IPS) with DC distribution require the massive use of power electronics for...
This paper introduces a multi-inverter system power supply prioritization method based on the system...
By investigating variable speed operation of an engine and different types of ac-dc rectifier topolo...
The Navy of tomorrow will require a robust and reconfigurable power system capable of supplying powe...
In recent years there has been rising interest in medium voltage direct current (MVDC) power systems...
Medium Voltage Direct Current (MVDC) power distribution architectures are of immense interest for va...
Medium-voltage direct-current (MVDC) distribution is a possible replacement due to the advancements ...
Medium Voltage DC (MVDC) distribution Power Systems for all-electric ships (AES) can be regarded as ...
A promising solution to improve tomorrow's all-electric ship onboard power system design and perform...
With the improvement in the power electronic technologies, medium voltage dc (MVDC) electrical distr...
Focusing on the relevant pros provided by power conversion onboard introduction (e.g. reduction of p...
This article reports on the design, development, and validation of advanced prototype 2 MVA generati...
This paper presents a complete review of MVDC applications and their required technologies. Four mai...
Medium-voltage direct current (MVDC) systems will be the backbone of power systems in the future nav...
Naval ship propulsion design is evolving from the traditional structure with a main engine driving a...
Integrated Power Systems (IPS) with DC distribution require the massive use of power electronics for...
This paper introduces a multi-inverter system power supply prioritization method based on the system...
By investigating variable speed operation of an engine and different types of ac-dc rectifier topolo...
The Navy of tomorrow will require a robust and reconfigurable power system capable of supplying powe...
In recent years there has been rising interest in medium voltage direct current (MVDC) power systems...
Medium Voltage Direct Current (MVDC) power distribution architectures are of immense interest for va...