Electromagnetic transient (EMT) simulation of power electronics conducted on the CPU slows down as the system scales up. Thus, the massively parallelism of the graphics processing unit (GPU) is utilized to expedite the simulation of the multi-terminal DC (MTDC) grid, where detailed models of the semiconductor switches are adopted to provide comprehensive device-level information. As the large number of nodes leads to an inefcient solution of the DC grid, three levels of circuit partitioning are applied, i.e., the transmission line-based natural separation of converter stations, splitting of the apparatus inside the station, and the coupled voltage-current sources for fine-grained partitioning. Components of similar attributes are written as...
To effectively capture interactions of largescale ac–dc systems integrating line commutated converte...
Abstract—This paper presents decomposition method of mathematical model of electric power system and...
The analysis of electromagnetic interference (EMI) noise of power electronic circuits involves both ...
Detailed high-order models of the insulated gate bipolar transistor (IGBT) and the diode are rarely ...
The electromagnetic transient (EMT) simulation of a arge-scale power system consumes so much computa...
The increasing complexity of modern AC/DC power systems poses a significant challenge to a fast solu...
Electromagnetic transient (EMT) simulation is one of the most complex power system studies that requ...
The complicated hybrid ac–dc network architecture creates new challenge for electromagnetic transien...
The electromagnetic transient (EMT) simulation of multi-terminal DC (MTDC) grids requires a detailed...
This paper presents a novel parallelization approach to speedup EMT simulation, using GPU-based comp...
Abstract With the interconnection of regional grids and the increasing penetration of renewable ener...
System-level electromagnetic transient (EMT) simulation of large-scale power converters with high-or...
The development of smart grid and the increasing scale of power system bring much pressure to the el...
Device-level power electronic circuit simulation is so cumbersome that engineers are forced to make ...
Extensive integration of power electronics apparatuses complicates the modern power grid and consequ...
To effectively capture interactions of largescale ac–dc systems integrating line commutated converte...
Abstract—This paper presents decomposition method of mathematical model of electric power system and...
The analysis of electromagnetic interference (EMI) noise of power electronic circuits involves both ...
Detailed high-order models of the insulated gate bipolar transistor (IGBT) and the diode are rarely ...
The electromagnetic transient (EMT) simulation of a arge-scale power system consumes so much computa...
The increasing complexity of modern AC/DC power systems poses a significant challenge to a fast solu...
Electromagnetic transient (EMT) simulation is one of the most complex power system studies that requ...
The complicated hybrid ac–dc network architecture creates new challenge for electromagnetic transien...
The electromagnetic transient (EMT) simulation of multi-terminal DC (MTDC) grids requires a detailed...
This paper presents a novel parallelization approach to speedup EMT simulation, using GPU-based comp...
Abstract With the interconnection of regional grids and the increasing penetration of renewable ener...
System-level electromagnetic transient (EMT) simulation of large-scale power converters with high-or...
The development of smart grid and the increasing scale of power system bring much pressure to the el...
Device-level power electronic circuit simulation is so cumbersome that engineers are forced to make ...
Extensive integration of power electronics apparatuses complicates the modern power grid and consequ...
To effectively capture interactions of largescale ac–dc systems integrating line commutated converte...
Abstract—This paper presents decomposition method of mathematical model of electric power system and...
The analysis of electromagnetic interference (EMI) noise of power electronic circuits involves both ...