The high consumption and reliance on electricity has cemented the importance of transient stability. Transient stability studies define as the power system’s capability to remain in synchronism after large disturbances are applied to the system. Proportional Integral Derivative (PID) and Power System Stabilizer (PSS) controllers are researched upon to enhance the transient stability of the power system. A Single Machine Infinite Bus (SMIB) model is used to simplify the multiple order nonlinear system. The system performance will be evaluated by computer simulation using Simulink in MATLAB.Bachelor of Engineering (Electrical and Electronic Engineering
Operation of large-scale power systems became more complicated in these days, especially when stabil...
Modern civilization is driven mainly by electricity and hence a reliable and secure power system pla...
Stability is of great importance in power systems; instability can cause fluctuations in many parame...
The high consumption and reliance on electricity has cemented the importance of transient stability....
The ability of a power system to return to stable operating condition after the occurrence of distur...
Understanding the concepts based on problem solving is not an easy methodology in teaching the impac...
Power system stability has been one of the utmost importance in power engineering. Power system stab...
Power system stability, in general terms, may be defined as its ability to response to a disturbance...
Transient stability is the capability of the power system to maintain synchronism under the conditio...
The growth in size and complexity of power system networks with a large number of interconnections h...
Power-system stability is a term applied to alternating-current electric power systems, denoting a c...
During the last few decades, electrical power demand enlarged significantly whereas power production...
In this paper, a small-signal dynamic model of a single-machine infinite-bus (SMIB) power system tha...
The stability of a system is its ability to return to normal or stable operation after having been s...
Abstract: The objective of this paper is to investigate and understand the stability of power system...
Operation of large-scale power systems became more complicated in these days, especially when stabil...
Modern civilization is driven mainly by electricity and hence a reliable and secure power system pla...
Stability is of great importance in power systems; instability can cause fluctuations in many parame...
The high consumption and reliance on electricity has cemented the importance of transient stability....
The ability of a power system to return to stable operating condition after the occurrence of distur...
Understanding the concepts based on problem solving is not an easy methodology in teaching the impac...
Power system stability has been one of the utmost importance in power engineering. Power system stab...
Power system stability, in general terms, may be defined as its ability to response to a disturbance...
Transient stability is the capability of the power system to maintain synchronism under the conditio...
The growth in size and complexity of power system networks with a large number of interconnections h...
Power-system stability is a term applied to alternating-current electric power systems, denoting a c...
During the last few decades, electrical power demand enlarged significantly whereas power production...
In this paper, a small-signal dynamic model of a single-machine infinite-bus (SMIB) power system tha...
The stability of a system is its ability to return to normal or stable operation after having been s...
Abstract: The objective of this paper is to investigate and understand the stability of power system...
Operation of large-scale power systems became more complicated in these days, especially when stabil...
Modern civilization is driven mainly by electricity and hence a reliable and secure power system pla...
Stability is of great importance in power systems; instability can cause fluctuations in many parame...