Reference Current Extraction through Sliding DFT Assisted Single Phase p-q Theory for Shunt Active Power Filter
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K. Ragavan
Abstract: Active Power Filters (APF) are more effective than conventional passive filters with regard to mitigating harmonics and compensating reactive power. As a result, deployment of APF in the distribution network is ever increasing. The performance of APF mainly depends on the reference extraction technique adopted. This work proposes sliding Discrete Fourier Transform (DFT) assisted single phase p-q theory for the extraction of reference current. The proposed algorithm exploits the inherent ability of sliding DFT (SDFT) to provide the fundamental and its quadrature component of signal (voltage or current) to derive the reference current with the help of a single-phase p-q theory. Furthermore, the algorithm involves the phase shifting of the fundamental component alone, and is suitable even for distorted utility voltage. Effectiveness of the proposed method is demonstrated through simulation results.
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Articles in the same Issue
- Masthead
- Masthead
- Research Article
- Studying Electromechanical Wave Propagation and Transport Delays in Power Systems
- Online Assessment of Voltage Stability in Power Systems with PMUs
- Design, Control, and Modeling of a New Voltage Source Converter for HVDC System
- Spatial Characterization of the Dynamic Response of Frequencies Utilizing Structural Partition Procedure for Large-Scale Power System
- Reference Current Extraction through Sliding DFT Assisted Single Phase p-q Theory for Shunt Active Power Filter
- CT Dimensioning for Single Slope Biased Differential Protection: Balancing Stability with Sensitivity
- Zonal Dynamic Equivalents Based on the Concept of Relative Electrical Distance
- Influence of Speed Governors of Hydropower Stations on Frequency Stabilization of Fixed-Speed Wind Farm
- Research Article
- Parallel-Connected Photovoltaic Inverters: Zero Frequency Sequence Harmonic Analysis and Solution
