Title :
Exact linearization for advanced reactive power compensators
Author :
Yao, Z. ; Neacsu, D.O. ; Rajagopalan, V.
Author_Institution :
Dept. de Genie Electr., Quebec Univ., Trois-Rivieres, Que., Canada
Abstract :
This paper presents a reactive power compensator for electric power systems, which consists essentially of a self-commutated inverter and a nonlinear controller. This compensator permits regulation of the voltage of the power systems by compensating reactive power with high transient performance. The design of the control system is based upon the “differential geometry technique”. Such a control system enables global linearization of the compensation system, including the power system and the self-commutated inverter, and thus helps to improve the transient performance of the global power system. The system is simulated using simplified models as well as more sophisticated models for inverters in order to validate the robustness of these controllers
Keywords :
DC-AC power convertors; compensation; control system analysis; control system synthesis; invertors; nonlinear control systems; power system control; power system stability; power system transients; reactive power control; robust control; thyristor convertors; control simulation; control system design; differential geometry technique; electric power systems; global linearization; nonlinear controller; reactive power compensators; robustness; self-commutated inverter; transient performance; voltage regulation; Control systems; Inverters; Nonlinear control systems; Power system control; Power system modeling; Power system simulation; Power system transients; Power systems; Reactive power; Reactive power control;
Conference_Titel :
Power Electronics Specialists Conference, 1996. PESC '96 Record., 27th Annual IEEE
Conference_Location :
Baveno
Print_ISBN :
0-7803-3500-7
DOI :
10.1109/PESC.1996.548630
