Real-time Implementation of a Three-phase THSeAF Based on VSC and P+R controller to Improve Power Quality of Weak Distribution Systems - 2017 PROJECT TITLE :Real-time Implementation of a Three-phase THSeAF Based on VSC and P+R controller to Improve Power Quality of Weak Distribution Systems - 2017ABSTRACT:This paper proposes a completely unique three-section transformerless hybrid series active filter (THSeAF) based on voltage-fed kind of converters (VSCs) to handle major power quality problems related to residential and business buildings. This power quality compensator presents an inexpensive solution to beat current-related issues plus integrating renewables to confirm a sustainable offer to the masses. The controller is based on a unique combination of the synchronous reference frame and pq theory to extract voltage and current harmonics as well as voltage unbalances. A proportional resonant (P+R) regulator is manufacturing gate switching signals for the three-part THSeAF. The generated duty-cycle waveforms can turn out compensating voltage to rectify harmonic currents initiated from typical nonlinear hundreds. The device ensures a reliable and dynamically restored power offer on the load's purpose of common coupling by means that of 3 auxiliary dc supplies. This paper describes mitigation of power-quality-connected issues of a microgrid systems and smart distribution grids along with the proposed resolution to boost the ability system performances. A combination of simulations and experimental laboratory results are administrated to validate the study. Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest An Improved Transformer Winding Tap Injection DSTATCOM Topology for Medium-Voltage Reactive Power Compensation - 2017 Finite States Model Predictive Control for Fault Tolerant Operation of Three-Phase Bidirectional AC/DC Converter Under Unbalanced Grid Voltages - 2017