Title :
Phase locked loop system for FACTS
Author_Institution :
Electr. & Mech. Eng., Univ. of Ulster, Newtownabbey, UK
Abstract :
This research addresses the special requirements of phase locked loops (PLLs) for a typical application with FACTS elements. A new PLL system that uses adaptation algorithms is developed with the aim of improving speed of responses, robustness to AC voltage depressions, and harmonic rejection. The adaptive PLL consists of the three control units that individually control frequency, phase angle, and voltage magnitude. The voltage controller output is used to compensate for reduced gain caused by the AC voltage magnitude depressions. The output phase angle and its derivative, the frequency signal, are controlled in two independent control systems in order to enable elimination of frequency and phase error without compromising transient responses. The simulation results are compared with a PLL available with the PSB MATLAB block-set and noticeable improvements are demonstrated. In particular, settling time and overshooting are significantly lower with conditions of reduced AC voltage magnitude.
Keywords :
compensation; flexible AC transmission systems; frequency control; harmonics suppression; phase control; phase locked loops; power system control; power system harmonics; transient response; voltage control; AC voltage depressions robustness; FACTS; PSB MATLAB block-set; frequency control; harmonic rejection; independent control systems; output phase angle; phase angle control; phase locked loop system; reduced gain compensation; transient response; voltage controller output; voltage magnitude control; Circuit faults; Control systems; Frequency; HVDC transmission; MATLAB; Phase locked loops; Power system harmonics; Power system transients; Robustness; Voltage control;
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2003.814885
