A hybrid multilevel inverter for shunt active filter using space-vector control
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abstract
In this paper, a current active power filter using a hybrid asymmetric multilevel inverter is presented and analyzed. The control proposed is based on a vector-control technique, generating an optimized switching pattern. The hybrid multilevel inverter increases the voltage levels number, reducing the harmonics associated to the commutation frequency. The hybrid multilevel inverter is structured by two cascaded-inverters, and the DC link voltage between the stages has the relation 1:3, generating 9 voltage levels. The signal reference is generated using a variant of the single-phase d-q Theory, allowing a fast transient response and stability. Simulated waveforms prove the viability of the control scheme and the multilevel active current filter proposed.
Current harmonics; Insulation degradation; Shunt active filters; Space-vector control; Computer simulation; DC power transmission; Electric commutation; Electric currents; Electric inverters; Electric potential; Electric power distribution; Electric power systems; Electric variables control; Harmonic distortion; Natural frequencies; Power electronics; Pulse width modulation; Switching; Topology; Waveform analysis; Active filters
