Add to ORKGThe dynamics of an electrical network can completely be described from the knowledge of its poles and zeros. Computation of poles and zeros of the transfer function (TF) of a transformer winding, represented as acoupled ladder network, involves solution of a large-sized equivalent circuit. This paper presents a novel solution based on state space analysis approach. It is shown, how the linearly transformed state space formulation, together with algebraic manipulations, can become useful. In the proposed formulation, symbolic variables (i.e., Laplacevariable, s) are suitably manipulated, so as to render computations purely numerical. With this feature, there is practically no limit on the size of networks and topologies (including resistance...
Mechanical deformations of transformer windings are identified through variations observed in their ...
Abstract--In this paper, techniques are described which demonstrate how a highly detailed internal t...
Given a completely inhomogeneous, fully-coupled, N-section ladder network in which elements of each ...
We thank Profs. Popov, van der Sluis, and Paap for writing a discussion on our paper [1]. We trust t...
Analytical solution is presented to convert a given driving-point impedance function (in s-domain) i...
The authors [1] presented an interesting method to extract the transfer function from the equivalent...
In this paper, an elegant and time-efficient computation method is proposed for obtaining the analyt...
A simple method is described for constructing physically realizable driving-point impedance function...
In this paper, a piece-wise linearized transformer winding model is proposed for transient internal ...
This paper reports the results of employing an artificial bee colony search algorithm for synthesizi...
A new procedure for analyzing power transformer windings with location-dependent circuit parameters,...
The knowledge and the control of many transient states which appear and propagate on the networks an...
A transfer function (TF) is computed during impulse tests on transformers. The structure and shape o...
In the paper a novel mathematical model of electromechanical actuator is presented. It is based on a...
The concept of the ideal transformer is presented in terms of flux relations contrasting a non-ideal...
Mechanical deformations of transformer windings are identified through variations observed in their ...
Abstract--In this paper, techniques are described which demonstrate how a highly detailed internal t...
Given a completely inhomogeneous, fully-coupled, N-section ladder network in which elements of each ...
We thank Profs. Popov, van der Sluis, and Paap for writing a discussion on our paper [1]. We trust t...
Analytical solution is presented to convert a given driving-point impedance function (in s-domain) i...
The authors [1] presented an interesting method to extract the transfer function from the equivalent...
In this paper, an elegant and time-efficient computation method is proposed for obtaining the analyt...
A simple method is described for constructing physically realizable driving-point impedance function...
In this paper, a piece-wise linearized transformer winding model is proposed for transient internal ...
This paper reports the results of employing an artificial bee colony search algorithm for synthesizi...
A new procedure for analyzing power transformer windings with location-dependent circuit parameters,...
The knowledge and the control of many transient states which appear and propagate on the networks an...
A transfer function (TF) is computed during impulse tests on transformers. The structure and shape o...
In the paper a novel mathematical model of electromechanical actuator is presented. It is based on a...
The concept of the ideal transformer is presented in terms of flux relations contrasting a non-ideal...
Mechanical deformations of transformer windings are identified through variations observed in their ...
Abstract--In this paper, techniques are described which demonstrate how a highly detailed internal t...
Given a completely inhomogeneous, fully-coupled, N-section ladder network in which elements of each ...