Title :
Extended Backstepping Method for Single-Machine Infinite-Bus Power Systems With SMES
Author :
Yong Wan ; Jun Zhao
Author_Institution :
State Key Lab. of Synthetical Autom. for Process Ind., Northeastern Univ., Shenyang, China
Abstract :
This brief studies the stability of single-machine infinite-bus power systems with superconducting magnetic energy storage (SMES) via simultaneous design of generator excitation control and SMES control. Since the object model is of non-strict-feedback form and thus the traditional backstepping method is not applicable, we propose an extended backstepping method for a class of general nonlinear systems. Then, we apply the proposed method to the object model and design the generator excitation controller and SMES controller simultaneously, which stabilize the power angle, the generator terminal voltage, and the power oscillation. In addition, we improve the transient and steady-state performances of power systems by introducing class K functions in the design process. Simulation results also show the effectiveness and advantage of the proposed controller.
Keywords :
electric generators; machine control; nonlinear control systems; power system stability; superconducting magnet energy storage; SMES control; extended backstepping method; general nonlinear systems; generator excitation control design; generator terminal voltage; k-functions; object model; power angle stability; power oscillation; single-machine infinite-bus power system stability; steady-state performances; superconducting magnetic energy storage; transient performances; Backstepping; Generators; Oscillators; Power system stability; Stability analysis; Transient analysis; Backstepping; generator excitation; non-strict-feedback form; power system; superconducting magnetic energy storage (SMES);
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2012.2190291
