Optimal Feedback Excitation Decentralized Coordinated Control Model of Multi-Machine Power System

Abstract: A new model based on optimal feedback gain has been proposed for the power system decentralized control. In this model, the block gain coefficient has been optimized to achieve excitation decentralized coordinated control of the multi-machine power system. The simulation of the Henan Yudong grid verified the effectiveness of the control strategy.

“…The stability of the reduced-order observer and closed-loop of the system incorporating using the Lyapunov direct method is for a single machine. Huang [8] designed a new model of excitation decentralized constrained controller of the multimachine power system based on the optimal feedback gain. Lee and Liaw [9] proposed the solution of inverse linear optimal control for constant disturbance using Algebraic Riccati Equations based on the linearquadratic regulator for an optimal feedback law and the relationships between the open-loop poles and the closed-loop poles that guarantee a positive regulator.…”

Decentralized constrained optimal control of the multimachine power system stability improvement

“…The stability of the reduced-order observer and closed-loop of the system incorporating using the Lyapunov direct method is for a single machine. Huang [8] designed a new model of excitation decentralized constrained controller of the multimachine power system based on the optimal feedback gain. Lee and Liaw [9] proposed the solution of inverse linear optimal control for constant disturbance using Algebraic Riccati Equations based on the linearquadratic regulator for an optimal feedback law and the relationships between the open-loop poles and the closed-loop poles that guarantee a positive regulator.…”

Decentralized constrained optimal control of the multimachine power system stability improvement

Improving Rotor Angle Stability of the Multimachine Power System Using Constrained Optimal Control