UNIT 1:
fundamental Concepts of stability
Stability and Energy of a system
Classification of stability
Power system stability : Definition and Causes
Nature and effects of Disturbances
Modelling of electrical components
Basic Assumptions made in stability studies
Modelling of synchronous machine for stability studies
UNIT 2:
Basic Concepts and Definitions
State Space Representation
Physical Interpretation of small signal stability
Eigen Properties of the state matirx - Eigen values & Vectors
Eigen Value and Stability
Mode shape and participation factors
Small - Signal Stability analysis of a SMIB
Machine (SMIB) configuration with numerical examples
UNIT 3:
Introduction of Transient Stability
Review of numerical Intergration
Modified Euler and fourth order RK method
Model to the Transient stability
Modified Euler and fourth order RK method
Interfacing of Synchronous Machines
Transient Stability Algorithm with partitioned
Application of TSA to SMIB system
UNIT 4:
Classification of voltage stability
Transmission system characteristics
Factors affecting voltage stability
Basic of Voltage Stability
Generator Characteristics
Characteristics of power system
Characteristics of reactive power compensating
UNIT 5:
Principle Behind transient stability
High Speed Fault Clearing
Regulated shunt compensation
Dynamic Braking, Reactor Switching
Independent pole operation of CB
High Speed Excitation system
