Title :
Nonlinear control for AC/DC power system with nonlinear loads
Author :
Xu, G.H. ; Chen, C. ; Wang, J. ; Li, D.D.
Author_Institution :
Dept. of Electr. Eng., Shanghai Jiao Tong Univ., China
Abstract :
In view of the nonlinearity of loads and HVDC in power systems, the M derivative, M bracket and MIMO feedback linearization based on nonlinear differential algebraic system (NDAS) are introduced into the design of nonlinear controller for parallel AC/DC power system. Bronovsky normal form for NDAS is derived when the M relative degree of NDAS is less than its dimension and certain designated conditions are satisfied. The control laws of both the excitation system and the rectifier current control for AC/DC system are studied in depth, which combine the input-output linearization technique and zero dynamics design theory for NDAS. The simulation for a single-machine infinite bus system (SMIBs) with parallel AC/DC transmission lines shows that the nonlinear control strategy is able to improve system dynamic performance for a variety of system operating conditions.
Keywords :
HVDC power transmission; MIMO systems; control system synthesis; differential algebraic equations; electric current control; linearisation techniques; nonlinear control systems; power transmission control; power transmission lines; HVDC; MIMO feedback linearization; input-output linearization technique; nonlinear control; nonlinear differential algebraic system; nonlinear loads; parallel AC-DC transmission lines; rectifier current control; single-machine infinite bus system; Control systems; Current control; HVDC transmission; Linear feedback control systems; MIMO; Nonlinear control systems; Nonlinear dynamical systems; Power system control; Power systems; Rectifiers;
Conference_Titel :
Power System Technology, 2004. PowerCon 2004. 2004 International Conference on
Print_ISBN :
0-7803-8610-8
DOI :
10.1109/ICPST.2004.1460021
