Sliding mode control applied to a 3/spl Phi/shunt active power filter using compensation with instantaneous reactive power theory

This paper presents a three-phase shunt active power filter controlled by using the theory related to the variable structure systems (VSS): sliding mode control (SMC), using a digital signal processor (DSP). A good dynamic response, robustness, and stability are obtained with this control strategy. The active filter is composed of a six-switch voltage fed three-phase inverter with neutral connection DC bus capacitor. The active filter is controlled by sensing the filter current and capacitor voltage using sliding mode control. Analysis and modeling at a shunt active power filter are presented as well as simulation and experimental results which verify the satisfactory results of the proposed approach. © 1998 IEEE.

Active power Filter; Analysis and modeling; Digital signal processors (DSP); Instantaneous reactive power theory; Neutral connections; Shunt active power filters; Three-phase inverter; Variable structure system; Capacitors; Dynamic response; Power electronics; Signal processing; Sliding mode control; Active filters

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