Title :
Enforcing passivity for admittance matrices approximated by rational functions
Author :
Gustavsen, Bjørn ; Semlyen, Adam
Author_Institution :
SINTEF, Trondheim, Norway
fDate :
2/1/2001 12:00:00 AM
Abstract :
A linear power system component can be included in a transient simulation as a terminal equivalent by approximating its admittance matrix Y by rational functions in the frequency domain. Physical behavior of the resulting model entails that it should absorb active power for any set of applied voltages, at any frequency. This requires the real part of Y to be positive definite (PD). We calculate a correction to the rational approximation of Y which enforces the PD-criterion to be satisfied. The correction is minimal with respect to the fitting error. The method is based on linearization and constrained minimization by quadratic programming. Examples show that models not satisfying the PD-criterion can lead to an unstable simulation, even though the rational approximation has stable poles only. Enforcement of the PD-criterion is demonstrated to give a stable result
Keywords :
electric admittance; frequency-domain analysis; matrix algebra; power system transients; quadratic programming; active power absorption; admittance matrices; admittance matrix; constrained minimization; fitting error; frequency domain; linear power system component; linearization; passivity enforcement; quadratic programming; rational functions; terminal equivalent; transient simulation; Admittance; Eigenvalues and eigenfunctions; Error correction; Frequency domain analysis; Least squares approximation; Minimization methods; Power system modeling; Power system simulation; Power system transients; Voltage;
Journal_Title :
Power Systems, IEEE Transactions on
