Programmable Device Circuits and Systems

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Simple Voltage Source Inverter Based Active Filter for Power Line Conditioners Using Instantaneous Real-Power Theory


Affiliations
1 Laxmi Narayan College of Technology, Rajiv Gandhi Prodyogiki Vishwavidyalaya, Bhopal (M.P.), India
2 Department of Electrical and Electronics Engineering, Laxmi Narayan College of Technology, Bhopal, M.P., India
     

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This paper presents a three-phase, simple voltage source inverter based active filter for power line conditioning to improve power quality in the distribution network. The active filter compensates both reactive power and harmonic currents drawn by non-linear loads; additionally it facilitates power factor corrections. The compensation process is based on concept of p-q theory. However, in the proposed approach only calculation of realpower (p) losses are conducted. This method is simple and different from conventional methods; it provides effective compensation for harmonics. The simple voltage source inverter switching signals are derived from the hysteresis current controller that results in a good dynamic performance under both steady state and transient operations. The dc-bus capacitor voltage of the voltage source inverter is controlled and reduced ripple voltage using PI-controller. This proposed active power filter system is validated through extensive simulation under transient and steady state conditions with different non-linear loads.

Keywords

Shunt Active Filter, Instantaneous Power Theory, Power Quality, Hysteresis Current Controller.
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  • Simple Voltage Source Inverter Based Active Filter for Power Line Conditioners Using Instantaneous Real-Power Theory

Abstract Views: 177  |  PDF Views: 3

Authors

Sangeeta Chouhan
Laxmi Narayan College of Technology, Rajiv Gandhi Prodyogiki Vishwavidyalaya, Bhopal (M.P.), India
Sumit Tiwari
Department of Electrical and Electronics Engineering, Laxmi Narayan College of Technology, Bhopal, M.P., India

Abstract


This paper presents a three-phase, simple voltage source inverter based active filter for power line conditioning to improve power quality in the distribution network. The active filter compensates both reactive power and harmonic currents drawn by non-linear loads; additionally it facilitates power factor corrections. The compensation process is based on concept of p-q theory. However, in the proposed approach only calculation of realpower (p) losses are conducted. This method is simple and different from conventional methods; it provides effective compensation for harmonics. The simple voltage source inverter switching signals are derived from the hysteresis current controller that results in a good dynamic performance under both steady state and transient operations. The dc-bus capacitor voltage of the voltage source inverter is controlled and reduced ripple voltage using PI-controller. This proposed active power filter system is validated through extensive simulation under transient and steady state conditions with different non-linear loads.

Keywords


Shunt Active Filter, Instantaneous Power Theory, Power Quality, Hysteresis Current Controller.