In electrical systems, the small-signal stability analysis method is usually applied to synchronous machines by using the Park representation (d, q-components). This paper presents the generalization of a different approach for this method, based on a, b, c phase variables. This approach is essential to software systems using phase variables as state variables and its generalization yields a small-signal stability analysis tool which is fully modular. Two test cases are presented to showcase the application of this approach to elements such as synchronous machines, automatic voltage regulator (AVR), power system stabilizer of type IEEE PSS2B, penstock, Francis turbine and speed regulator
This work presents a general state-space representation of a multi-machine, multi-order power system...
This paper presents the calculation of the state matrix A of the power system through a program deve...
This study develops a program to generate linearized state space representation of the power systems...
A thorough and exhaustive presentation of theoretical analysis and practical techniques for the smal...
Abstract: This paper describes the state-of-the-art on the small-signal stability analysis and desig...
A detailed formulation considering generator swing dynamics for small signal stability analysis of p...
Abstract- A synchronous generator may sometimes be able to withstand a large impact but it may fail ...
Flexible AC Transmission Systems (FACTS) equipment is currently being incorporated into the power sy...
The power system stability analysis is approached taking into explicit account the dynamic performan...
A method for assessment and control of small signal stability (SSS) has been proposed in this paper....
This paper used the state space method to establish a stability analysis model of a hydroturbine gov...
SMALL SIGNAL ANALYSIS OF INTEGRATED POWER SYSTEMS is an essential tool to discover possible low freq...
This thesis proposes novel Small-Signal Stability Analysis (SSSA)-based techniques that contribute t...
The rapidly growing complexity and increasing size of power system networks with a large number of i...
International audiencePower Park Modules (PPM), such as wind and photovoltaic plants, bring new mode...
This work presents a general state-space representation of a multi-machine, multi-order power system...
This paper presents the calculation of the state matrix A of the power system through a program deve...
This study develops a program to generate linearized state space representation of the power systems...
A thorough and exhaustive presentation of theoretical analysis and practical techniques for the smal...
Abstract: This paper describes the state-of-the-art on the small-signal stability analysis and desig...
A detailed formulation considering generator swing dynamics for small signal stability analysis of p...
Abstract- A synchronous generator may sometimes be able to withstand a large impact but it may fail ...
Flexible AC Transmission Systems (FACTS) equipment is currently being incorporated into the power sy...
The power system stability analysis is approached taking into explicit account the dynamic performan...
A method for assessment and control of small signal stability (SSS) has been proposed in this paper....
This paper used the state space method to establish a stability analysis model of a hydroturbine gov...
SMALL SIGNAL ANALYSIS OF INTEGRATED POWER SYSTEMS is an essential tool to discover possible low freq...
This thesis proposes novel Small-Signal Stability Analysis (SSSA)-based techniques that contribute t...
The rapidly growing complexity and increasing size of power system networks with a large number of i...
International audiencePower Park Modules (PPM), such as wind and photovoltaic plants, bring new mode...
This work presents a general state-space representation of a multi-machine, multi-order power system...
This paper presents the calculation of the state matrix A of the power system through a program deve...
This study develops a program to generate linearized state space representation of the power systems...