Time-domain simlulation plays a large part in the design and analysis of power systems. Given the expanding needs of circuit system design packages, it is of the utmost importance to have computationally efficient methods of time-domain simulation available. This thesis describes the development and application of the multi-rate numerical integration techniques for the dynamic simulation of power-electronic-based systems (DCZEDS) that are composed of AC power supply, DC power distribution, and propulsion load subsystems with different time scales. --Abstract, page iii
There has been a great deal of progress made in computer aided design and analysis in the power elec...
In this contribution a tailored approach for the simulation of electrical devices with pulse-width-m...
This paper presents a fast and efficient way of simulating multistage power electronic circuits with...
The time evolution of power systems is modeled by systems of differential and algebraic equations (D...
In this paper, the multirate method is introduced to analyse power system behavior for systems with ...
Summary. The time evolution of power systems is mod-eled by a system of differential and algebraic e...
In this paper, the multirate method is introduced to analyze power system behavior including linear ...
In this paper, the multirate method is applied to the problem of simulating the dynamics of a power ...
With wide applications of power electronic devices in modern power systems, simulation using traditi...
Dynamic simulation studies are used to analyze the behavior of power systems after a disturbance has...
This dissertation firstly presents beneficial attributes of Voltage Source Converter-based DC (VSC-H...
Power system transient stability studies are complex and can take a substantial amount of time to si...
This work presents methodologies to facilitate the efficient cosimulation of electromagnetic/circuit...
In this digest a new multirate approach for the time-stepping of electrical device models controlled...
The simulation of electrical power system dynamic behavior is done using tran- sient stability simul...
There has been a great deal of progress made in computer aided design and analysis in the power elec...
In this contribution a tailored approach for the simulation of electrical devices with pulse-width-m...
This paper presents a fast and efficient way of simulating multistage power electronic circuits with...
The time evolution of power systems is modeled by systems of differential and algebraic equations (D...
In this paper, the multirate method is introduced to analyse power system behavior for systems with ...
Summary. The time evolution of power systems is mod-eled by a system of differential and algebraic e...
In this paper, the multirate method is introduced to analyze power system behavior including linear ...
In this paper, the multirate method is applied to the problem of simulating the dynamics of a power ...
With wide applications of power electronic devices in modern power systems, simulation using traditi...
Dynamic simulation studies are used to analyze the behavior of power systems after a disturbance has...
This dissertation firstly presents beneficial attributes of Voltage Source Converter-based DC (VSC-H...
Power system transient stability studies are complex and can take a substantial amount of time to si...
This work presents methodologies to facilitate the efficient cosimulation of electromagnetic/circuit...
In this digest a new multirate approach for the time-stepping of electrical device models controlled...
The simulation of electrical power system dynamic behavior is done using tran- sient stability simul...
There has been a great deal of progress made in computer aided design and analysis in the power elec...
In this contribution a tailored approach for the simulation of electrical devices with pulse-width-m...
This paper presents a fast and efficient way of simulating multistage power electronic circuits with...