Next generation fleets will rely on medium-voltage direct-current (MVDC) electric power distribution systems utilizing high power density and high-efficiency components. One key gap to make such MVDC systems feasible is a super-fast, high-efficiency, and high power density protection device. The U.S. Navy has previously developed a 1 kV, 1 kA solid state circuit breaker (SSCB). A new 2 kV, 1.2 kA SSCB has been designed by NPS with collaborating partners that has quadrupled power density. This innovative insulated gate bipolar transistor (IGBT)-based SSCB consists of anti-series IGBT modules, a parallel resistor-capacitor (RC) branch, and an electronically triggered metal-oxide varistor (MOV) branch. The novel electronically controlled MOV i...
From local utility grids to electric ships, providing power to an ever increasing variety and magnit...
This paper investigates the design principles of a solid-state circuit breaker (SS CB) for medium vo...
Exciting high voltage direct current (HVDC) transmission systems are mainly point-to-point connectio...
Medium-voltage DC (MVDC) distribution is an enabling technology for the electrification of transport...
Direct current (DC) distribution system has shown potential over the alternative current (AC) distri...
Today, the emerging technology of LVDC and MVDC grids is under extensive research. These grids ease ...
Military vehicle electrical power systems require quickly responding fault protection to prevent mis...
Popularity of DC distribution systems is increasing for many residential and industrial applications...
Medium-voltage direct current (MVDC) systems will be the backbone of power systems in the future nav...
In application areas such as data centers, electric ships and dc microgrids, dc systems are better s...
Medium voltage dc distribution systems are currently of interest for future naval wa...
Electric propulsion and integrated hybrid power systems can improve the energy efficiency and fuel ...
Naval ship propulsion design is evolving from the traditional structure with a main engine driving a...
DC Solid-State Circuit Breakers (SSCB) play an important role in the protection of DC and hybrid AC/...
Circuit breakers (CBs) are the main protection devices for both alternating current (AC) and direct ...
From local utility grids to electric ships, providing power to an ever increasing variety and magnit...
This paper investigates the design principles of a solid-state circuit breaker (SS CB) for medium vo...
Exciting high voltage direct current (HVDC) transmission systems are mainly point-to-point connectio...
Medium-voltage DC (MVDC) distribution is an enabling technology for the electrification of transport...
Direct current (DC) distribution system has shown potential over the alternative current (AC) distri...
Today, the emerging technology of LVDC and MVDC grids is under extensive research. These grids ease ...
Military vehicle electrical power systems require quickly responding fault protection to prevent mis...
Popularity of DC distribution systems is increasing for many residential and industrial applications...
Medium-voltage direct current (MVDC) systems will be the backbone of power systems in the future nav...
In application areas such as data centers, electric ships and dc microgrids, dc systems are better s...
Medium voltage dc distribution systems are currently of interest for future naval wa...
Electric propulsion and integrated hybrid power systems can improve the energy efficiency and fuel ...
Naval ship propulsion design is evolving from the traditional structure with a main engine driving a...
DC Solid-State Circuit Breakers (SSCB) play an important role in the protection of DC and hybrid AC/...
Circuit breakers (CBs) are the main protection devices for both alternating current (AC) and direct ...
From local utility grids to electric ships, providing power to an ever increasing variety and magnit...
This paper investigates the design principles of a solid-state circuit breaker (SS CB) for medium vo...
Exciting high voltage direct current (HVDC) transmission systems are mainly point-to-point connectio...