Reference Frame Theory Background Linear Transformation We have
Reference Frame Theory
Background: Linear Transformation • We have seen that transformation can simplify the problem in power system. • Choosing appropriate transformation can significantly reduce the problem. • Can you mention the example of the transformation you have ever used?
Transformation in Transformator • You can always express all variables & parameters in secondary of the transformator into corresponding primer or vice versa.
Symmetrical Components • It was invented by Fortescue • It decomposes unbalance abc phase variables into three symmetrical component • Representative symmetrical components
Symmetrical Components(2) • The transformation matrix is Where and the inverse
Example Fault Va 0 Va 1 Va 2 Vb 0 Vb 2 Vc 1 Vc 2 Vb 1 Vc 0
We will begin other kind of transformations You will appreciate the benefit of using them later on
Clarke’s Transformation • It transforms abc quantity into stationary • coincides with phase a-axis and by • The equation with The inverse and leads the
Park’s Transformation • It was proposed by Robert H. Park from MIT • There are wide ranges of application from machine simulation, control, drives, etc. • This transform is one of the most important application for power engineers.
Park’s Transformation (2)
Park’s Transformation (3) • A vector in space can be seen from several coordinate • We can change from one coordinate to another coordinate
Park’s Transformation (4)
Park’s Transformation (5)
The abc to dqo transformation
The abc to dqo transformation (2)
The abc to dqo transformation (3)
The abc to dqo transformation (3)
Commonly Used Reference Frame
Transformation Between Reference Frame
Application to Voltage Equation
Application to Voltage Equation(2)
Application to Flux Linkage
Application to Flux Linkage (2)
Application to Flux Linkage (3)
Application to Flux Linkage (4)
Application to Flux Linkage (5)
Transformation of Balanced Set
Transformation of Balanced Set (2)
References • Power System Stability lecture notes by Dr. Naebboon Hoochareon. • Dynamic Simulations of Electric Machinery: Using MATLAB/SIMULINK by Prof. Chee-Mun Ong • Analysis of Electric Machinery and Drive Systems by Prof. Paul C. Krause et. al.
- Slides: 29
