The Grid-Connected PV Inverter Control Basing the Exponential Sliding Mode

Abstract

In order to improve the dynamic performance of the grid-connected PV inverter control system, reduce the hardware and software cost of inverter control design, in view of grid-connected inverter non-linear mathematical model, this paper proposes the design of single-phase current closed loop grid-connected PV inverter control system using the Exponential Sliding Mode Control of the modern control theory. Theory testify of the Exponential Sliding Mode Approach Law applied in the grid-connected inverter is completed, and system stability was proven using Lyapunov theorem. In view of the question of chosen Sliding Mode Approach Law existence the non-linearity possibly to cause system buffeting, used the unit to control continuous method, it can enable smooth after the control having high gain characteristic nearby the cut surface, and it has the resistance disturbance and parameter perturbation ability. Compared with the conventional control system, the result had proven proposed the control strategy accurate, and the system has a good control precision and followed characteristic.