Article: Nonlinear-variable-gain fuzzy control with finite control set model predictive-based DSTATCOM system to improve power quality in distribution system Journal: International Journal of Power Electronics (IJPELEC) 2021 Vol.13 No.3 pp.325 - 353 Abstract: In this paper, a Takagi-Sugeno (T-S) fuzzy control structure with model predictive current control-based distribution static compensator (DSTATCOM) is proposed to improve power quality in distribution system. This control technique is based on proposed instantaneous symmetrical component and active power (ISCAP) method for reference generation, T-S fuzzy control for quick stabilisation of DC-link voltage to achieve faster tracking of reference currents and model predictive control for switching signals generation without need of modulators. This combined effort enhances the compensation capability of the system as well as making the system cost effective. Through simulation and real-time experimentation it is found that proposed controller has improved performance in terms of harmonic elimination, power factor correction, quick stabilisation of DC-link voltage and reactive power compensation. Finally this controller is employed with real-time hardware-in-the-loop (HIL) based OPAL-RT 5600 system with RTDS hardware OP5142 which is incorporated with front end processor Xilinx spartan-3 XC3S5000. Inderscience Publishers - linking academia, business and industry through research

Title: Nonlinear-variable-gain fuzzy control with finite control set model predictive-based DSTATCOM system to improve power quality in distribution system

Authors: Gokulananda Sahu; KamalaKanta Mahapatra

Addresses: Department of Electronics and Telecommunication Engineering, Ghanashyam Hemalata Institute of Technology and Management, Rasananda Jena Vihar, Bhuan, Puri-2, Odisha, India ' Department of Electronics and Communication Engineering, National Institute of Technology, Rourkela, Odisha, India

Abstract: In this paper, a Takagi-Sugeno (T-S) fuzzy control structure with model predictive current control-based distribution static compensator (DSTATCOM) is proposed to improve power quality in distribution system. This control technique is based on proposed instantaneous symmetrical component and active power (ISCAP) method for reference generation, T-S fuzzy control for quick stabilisation of DC-link voltage to achieve faster tracking of reference currents and model predictive control for switching signals generation without need of modulators. This combined effort enhances the compensation capability of the system as well as making the system cost effective. Through simulation and real-time experimentation it is found that proposed controller has improved performance in terms of harmonic elimination, power factor correction, quick stabilisation of DC-link voltage and reactive power compensation. Finally this controller is employed with real-time hardware-in-the-loop (HIL) based OPAL-RT 5600 system with RTDS hardware OP5142 which is incorporated with front end processor Xilinx spartan-3 XC3S5000.

Keywords: distribution static compensator; DSTATCOM; model predictive control; MPC; power quality; PQ; real-time digital simulator; RTDS; hardware in-the-loop; HIL; fuzzy logic control; FLC.

DOI: 10.1504/IJPELEC.2021.114462

International Journal of Power Electronics, 2021 Vol.13 No.3, pp.325 - 353

Received: 28 Apr 2018
Accepted: 14 Sep 2018
Published online: 23 Apr 2021 *

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Title: Nonlinear-variable-gain fuzzy control with finite control set model predictive-based DSTATCOM system to improve power quality in distribution system

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