A quick and simple approach is developed to perform circuit simulations for an equivalent circuit extracted from a first principles formulation for DC power bus structures. The simulations are done by solving the system equation using an iterative method. Good agreement between modeling and measurements demonstrate the effectiveness of the method, which is very suitable and computationally efficient for frequency-domain DC power modeling
This paper presents a stepwise time-domain simulation technique for analysis of power electronics ci...
The overall system status calculated by power flow analysis is the most basic information used for a...
A methodology for modeling the power delivery network from the voltage regulator module to the pins ...
“The concept of partial elements with normalized potential coefficients is developed for general med...
Power bus design is a critical aspect in high-speed digital circuit designs. A circuit extraction ap...
The circuit extraction mixed potential integral equation (CEMPIE) technique predicts the distributed...
Power bus design is a critical aspect in high-speed digital circuit designs. A circuit extraction ap...
The mixed power flow analysis method decreases the computational complexity and achieves a high leve...
There has been a great deal of progress made in computer aided design and analysis in the power elec...
In this book we are dealing with circuits DC, supplemented by Dennis Transformers, invertible elemen...
In the first half of this work, a subgridding algorithm with separate spatial and temporal subgriddi...
Representations of power systems by frequency dependent impedance equivalents is an emerging techniq...
Discusses the application of mathematical and engineering tools for modeling, simulation and control...
Interconnects in electrical/electronic systems are commonly modeled in frequency-domain. However, sy...
A novel approach of equivalent circuit model extraction is developed for modeling of integrated pack...
This paper presents a stepwise time-domain simulation technique for analysis of power electronics ci...
The overall system status calculated by power flow analysis is the most basic information used for a...
A methodology for modeling the power delivery network from the voltage regulator module to the pins ...
“The concept of partial elements with normalized potential coefficients is developed for general med...
Power bus design is a critical aspect in high-speed digital circuit designs. A circuit extraction ap...
The circuit extraction mixed potential integral equation (CEMPIE) technique predicts the distributed...
Power bus design is a critical aspect in high-speed digital circuit designs. A circuit extraction ap...
The mixed power flow analysis method decreases the computational complexity and achieves a high leve...
There has been a great deal of progress made in computer aided design and analysis in the power elec...
In this book we are dealing with circuits DC, supplemented by Dennis Transformers, invertible elemen...
In the first half of this work, a subgridding algorithm with separate spatial and temporal subgriddi...
Representations of power systems by frequency dependent impedance equivalents is an emerging techniq...
Discusses the application of mathematical and engineering tools for modeling, simulation and control...
Interconnects in electrical/electronic systems are commonly modeled in frequency-domain. However, sy...
A novel approach of equivalent circuit model extraction is developed for modeling of integrated pack...
This paper presents a stepwise time-domain simulation technique for analysis of power electronics ci...
The overall system status calculated by power flow analysis is the most basic information used for a...
A methodology for modeling the power delivery network from the voltage regulator module to the pins ...