Title :
Robust and low order power oscillation damper design through polynomial control
Author :
Simfukwe, Dumisani ; Pal, Biswajit
Author_Institution :
R&D, AREVA, UK
Abstract :
The paper presents a method for designing low order robust controllers for stabilizing power system oscillations. The method uses polynomial control techniques. For single-input/single-output systems (SISO), the variability in operating conditions is captured using an interval polynomial. Kharitonov´s theorem is then used to characterize a fixed order robust controller guaranteeing specified damping. This gives bi-linear matrix inequality (BMI) stability conditions which are solved using the BMI solver PENBMI. The effectiveness of the method is demonstrated by designing power oscillation damping (POD) controllers for single-, four-, and 16-machine power system models.
Keywords :
damping; linear matrix inequalities; oscillations; polynomials; power system stability; 16-machine power system models; BMI stability conditions; Kharitonov´s theorem; PENBMI; POD controllers; SISO systems; bilinear matrix inequality stability conditions; four-machine power system models; interval polynomial; low order robust controllers; operating conditions; polynomial control techniques; power oscillation damping; power system oscillations; single-input-single-output systems; single-machine power system models; Damping; Educational institutions; Oscillators; Polynomials; Power system stability; Robustness; Shock absorbers;
Conference_Titel :
Power and Energy Society General Meeting (PES), 2013 IEEE
Conference_Location :
Vancouver, BC
DOI :
10.1109/PESMG.2013.6672181
