Title :
Damping controller design for power system oscillations using global signals
Author :
Aboul-Ela, Magdy E. ; Sallam, A.A. ; McCalley, James D. ; Fouad, A.A.
Author_Institution :
Suez Canal Univ., Egypt
fDate :
5/1/1996 12:00:00 AM
Abstract :
This paper describes a new power system stabilizer (PSS) design for damping power system oscillations focusing on interarea modes. The input to the PSS consists of two signals. The first signal is mainly to damp the local mode in the area where PSS is located using the generator rotor speed as an input signal. The second is an additional global signal for damping interarea modes. Two global signals are suggested; the tie-line active power and speed difference signals. The choice of PSS location, input signals and tuning is based on modal analysis and frequency response information. These two signals can also be used to enhance damping of interarea modes using SVC located in the middle of the transmission circuit connecting the two oscillating groups. The effectiveness and robustness of the new design are tested on a 19-generator system having characteristics and structure similar to the Western North American grid
Keywords :
circuit oscillations; control system analysis computing; control system synthesis; damping; power system analysis computing; power system control; power system interconnection; power system stability; reactive power control; robust control; static VAr compensators; transmission networks; PSS location; SVC; control simulation; damping controller design; effectiveness; frequency response; generator rotor speed; global signals; input signal; interarea modes; local mode; modal analysis; power system oscillations; robustness; speed difference signal; tie-line active power signal; transmission circuit; Circuit optimization; Control systems; Damping; Frequency response; Modal analysis; Power system control; Power systems; Rotors; Signal generators; Tuning;
Journal_Title :
Power Systems, IEEE Transactions on
