Add to ORKGThe paper proposes a novel method for the optimal parameter selection of the discrete-time switch model used in circuit solvers that adopt the Fixed Admittance Matrix Nodal Method (FAMNM) approach. As known, FAMNM-based circuit solvers allow to reach efficient computation times since they do not need the inversion of the circuit nodal admittance matrix. However, these solvers need to optimally tune the so-called discrete switch conductance, since this parameter might largely affect the simulations accuracy. Within this context, the method proposed in the paper minimizes the distance between the eigenvalues of the original circuit’s nodal admittance matrix with those associated with the presence of the discrete-time switches. The method is p...
The frequency response analysis of switched networks plays a very important part in designing variou...
This paper proposes a black-box behavioral modeling framework for analog circuit blocks operating un...
Power networks supply power from the P/G pads on a chip to the circuit modules. With the rapid incre...
Abstract – The paper proposes a novel method for the optimal parameter selection of the discrete-tim...
Frequent matrix factorizations due to power electronic switch commutations are computationally expen...
The paper describes a new switch model based on the associated discrete circuit (ADC) models. The sw...
This paper presents a stepwise time-domain simulation technique for analysis of power electronics ci...
The paper presents a new technique for the simulation of power circuits. This technique allows a dir...
Numerical simulation of power systems for real-time simulation applications: This report concerns to...
This thesis develops an FPGA-based real-time simulation platform for power grids including multiple ...
Nonlinearities have been the major obstructions that limit the computational efficiency in power ele...
A new discrete-time model for pulse-width modulated (PWM) converters operating in the discontinuous ...
A switch model previously proposed in references [1], [2| and [3] for power electronics applications...
In this paper, we propose a new, efficient and robust automatic solver switching strategy, called a-...
In the fields of power electronics and power systems, the modeling and simulation of switching conve...
The frequency response analysis of switched networks plays a very important part in designing variou...
This paper proposes a black-box behavioral modeling framework for analog circuit blocks operating un...
Power networks supply power from the P/G pads on a chip to the circuit modules. With the rapid incre...
Abstract – The paper proposes a novel method for the optimal parameter selection of the discrete-tim...
Frequent matrix factorizations due to power electronic switch commutations are computationally expen...
The paper describes a new switch model based on the associated discrete circuit (ADC) models. The sw...
This paper presents a stepwise time-domain simulation technique for analysis of power electronics ci...
The paper presents a new technique for the simulation of power circuits. This technique allows a dir...
Numerical simulation of power systems for real-time simulation applications: This report concerns to...
This thesis develops an FPGA-based real-time simulation platform for power grids including multiple ...
Nonlinearities have been the major obstructions that limit the computational efficiency in power ele...
A new discrete-time model for pulse-width modulated (PWM) converters operating in the discontinuous ...
A switch model previously proposed in references [1], [2| and [3] for power electronics applications...
In this paper, we propose a new, efficient and robust automatic solver switching strategy, called a-...
In the fields of power electronics and power systems, the modeling and simulation of switching conve...
The frequency response analysis of switched networks plays a very important part in designing variou...
This paper proposes a black-box behavioral modeling framework for analog circuit blocks operating un...
Power networks supply power from the P/G pads on a chip to the circuit modules. With the rapid incre...