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A new single-phase active power filter with reduced energy-storage capacity

A new single-phase active power filter with reduced energy-storage capacity

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The paper presents an active power filter (APF) circuit which employs a new control method, using an integration and sampling technique, to simplify the calculation algorithm for the real fundamental component of load current. In addition, a new simple control scheme, based on the energy balance concept, is proposed to control the voltage of an energy-storage capacitor. Since the energy change in the energy-storage capacitor can be compensated in the next cycle, and a larger DC bus voltage ripple can be tolerated if a sampling technique is used, a relatively smaller energy storage capacitor is required. The advantages of this APF circuit are simplicity of control circuits, low cost (a smaller energy-storage capacitor) and good transient response. In theory, the time delay for the compensation of reactive power and harmonic currents is zero. The feasibility of this theory is veriffied by using a PSPICE simulation and experimental results.

Inspec keywords: power filters; voltage control; active filters; digital simulation; SPICE; reactive power; compensation; capacitor storage; transient response; harmonics; power electronics

Other keywords: voltage control; time delay; single-phase active power filter; energy change compensation; sampling technique; harmonic currents compensation; DC bus voltage ripple; energy-storage capacitor; load current; integration technique; reduced energy-storage capacity; reactive power compensation; control method; transient response; PSPICE simulation

Subjects: Voltage control; Power electronics, supply and supervisory circuits; Control of electric power systems; Power convertors and power supplies to apparatus; Electronic engineering computing; Active filters and other active networks

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