Title :
Convex polyhedron LPV controller design for variable speed wind turbine
Author :
Deng Ying ; Zhou Feng ; Tong Xubo ; Yang Min ; Zhang Dan
Author_Institution :
North China Electr. Power Univ., Beijing, China
Abstract :
According to the dynamic stability of power train, the paper puts forward a new gain scheduling LPV robus H∞ controller design method which allocates the close-loop poles to the satisfied dynamic response area. By taking use of the LPV convex decomposition method, this paper transforms the wind turbine into a convex polyhedron LPV model, and then designs state space feedback K for each vertex of convex polyhedron which can meet H∞ performance by using LMI method. Synthesize each designed feedback controller to get convex polyhedron LPV controller. The result of simulation validates the controller to be of a good control performance.
Keywords :
H∞ control; closed loop systems; control system synthesis; dynamic response; feedback; stability; velocity control; wind turbines; H∞ performance; LMI method; LPV convex decomposition method; close-loop pole allocation; convex polyhedron LPV controller design; dynamic response area; dynamic stability; feedback controller design; gain scheduling LPV robust H∞ controller design method; linear parameter varying; power train; state space feedback design; variable speed wind turbine; Design methodology; Generators; Power systems; Rotors; Torque; Wind speed; Wind turbines; LMI(linear matrix inequalities; LPV(linear parameter varying); convex decomposition;
Conference_Titel :
Materials for Renewable Energy and Environment (ICMREE), 2013 International Conference on
Conference_Location :
Chengdu
Print_ISBN :
978-1-4799-3335-8
DOI :
10.1109/ICMREE.2013.6893693
