Chaotic suppression of a power system based on adaptive non-singular terminal sliding mode control

Under certain conditions, chaotic oscillations will appear in a power system, affecting the safe and stable operation of the power grid. The dynamic behavior of chaotic oscillation in the fourth-order model of power system is analyzed and a controller based on adaptive non-singular terminal sliding mode control is designed. To ensure that the system converges within a limited time and does not produce singularity problems, the chaotic oscillation phenomenon in the fourth-order power system is quickly eliminated. To solve the problem that the damping coefficient and mechanical power usually have uncertainty in the fourth-order power system model, adaptive control is used to estimate it. This enhances the practicability of the controller. Simulation results demonstrate the effectiveness of the controller. © 2021 Power System Protection and Control Press.