Title :
Nonlinear stabilized controller design for TCSC
Author :
Xiang, Nong ; Liu, Dichen
Author_Institution :
Sch. of Electr. Eng., Wuhan Univ., Wuhan
Abstract :
The precise linearization method based on the theory of differential geometry is used in TCSC stabilized controller´s design. It is mainly considered that TCSC stabilized controller is designed with linear quadratic optimal control theory after the one machine - infinity bus system with TCSC is precisely linearized, compared with traditional PID controller in MATLAB/Simulink simulation. The results of computer simulation indicate that TCSC nonlinear controller based on differential geometry can not only improve the static stability of system, but also effectively damp power oscillation and enhance the transient stability of system when the power system suffers small disturbance and short circuit. In addition, it also illuminates that nonlinear control is more effective than traditional PID control, and possess certain robustness and self- adaptability.
Keywords :
differential geometry; linear quadratic control; nonlinear control systems; power capacitors; power system control; power system simulation; power system transient stability; thyristors; MATLAB; Simulink simulation; TCSC; differential geometry theory; linear quadratic optimal control theory; nonlinear stabilized controller design; one machine-infinity bus system; power system static stability; power system transient stability; precise linearization method; thyristor controlled series capacitor; Circuit stability; Geometry; H infinity control; Optimal control; Power capacitors; Power system simulation; Power system stability; Power system transients; Three-term control; Thyristors; Thyristor controlled series capacitor (TCSC); exactly linearization; nonlinear controller; quadratic optimal control; stability of power system;
Conference_Titel :
Electric Utility Deregulation and Restructuring and Power Technologies, 2008. DRPT 2008. Third International Conference on
Conference_Location :
Nanjuing
Print_ISBN :
978-7-900714-13-8
Electronic_ISBN :
978-7-900714-13-8
DOI :
10.1109/DRPT.2008.4523755
