This study presents a novel approach to determine the steady-state performance of a self-excited induction generator (SEIG). The method gives an intuitive understanding of the effects of loading on the steady-state performance of the SEIG, without requiring any major mathematical effort. The steady-state no-load voltage of the SEIG is determined as the intersection between the generator no-load curve and the capacitor characteristics. The proposed method extends this approach to a loaded generator by replacing the no-load characteristic by a new generator-load curve. The method is initially applied in a lab environment, but a suitable algorithm to be used instead is also introduced. The algorithm has been validated through laboratory measur...
A steady-state analysis of a novel single-phase self-regulated self-excited induction generator (SRS...
This thesis covers the analysis, dynamic modelling and control of an isolated selfexcited induction ...
The main focus of this paper is the steady-state analysis of self-excited induction generators (SEIG...
The paper presents the application of DIRECT algorithm to analyse the performance of the Self-excite...
Abstract – Isolated induction generators usually called self-excited induction generators seem to be...
This article deals with the performance prediction and analysis of the two winding single-phase self...
Abstract: – Induction generators in self excited mode are found to be suitable for remote and windy...
This paper presents a new transient model of a stand alone (isolated) self excited induction generat...
Consulta en la Biblioteca ETSI Industriales (7707)[eng] The squirrel cage Induction Machine (IM) can...
One of the working induction generators is the self-excited induction generator (SEIG). In the self-...
Due to speed fluctuations of unregulated wind-turbines, the terminal voltage may increase to dangero...
A comprehensive and general analytical method supported by computer software for design of single-ph...
A methodology of selection of capacitors for optimum excitation of single-phase SEIG is explained. C...
paper examines the steady-state analysis and performance of an isolated three-phase self-excited ind...
The objective of this paper is to predict behavior of self excited induction generators (SEIG). A sy...
A steady-state analysis of a novel single-phase self-regulated self-excited induction generator (SRS...
This thesis covers the analysis, dynamic modelling and control of an isolated selfexcited induction ...
The main focus of this paper is the steady-state analysis of self-excited induction generators (SEIG...
The paper presents the application of DIRECT algorithm to analyse the performance of the Self-excite...
Abstract – Isolated induction generators usually called self-excited induction generators seem to be...
This article deals with the performance prediction and analysis of the two winding single-phase self...
Abstract: – Induction generators in self excited mode are found to be suitable for remote and windy...
This paper presents a new transient model of a stand alone (isolated) self excited induction generat...
Consulta en la Biblioteca ETSI Industriales (7707)[eng] The squirrel cage Induction Machine (IM) can...
One of the working induction generators is the self-excited induction generator (SEIG). In the self-...
Due to speed fluctuations of unregulated wind-turbines, the terminal voltage may increase to dangero...
A comprehensive and general analytical method supported by computer software for design of single-ph...
A methodology of selection of capacitors for optimum excitation of single-phase SEIG is explained. C...
paper examines the steady-state analysis and performance of an isolated three-phase self-excited ind...
The objective of this paper is to predict behavior of self excited induction generators (SEIG). A sy...
A steady-state analysis of a novel single-phase self-regulated self-excited induction generator (SRS...
This thesis covers the analysis, dynamic modelling and control of an isolated selfexcited induction ...
The main focus of this paper is the steady-state analysis of self-excited induction generators (SEIG...