Article: Development of fuzzy logic controller for improved interline unified power quality conditioner Journal: International Journal of Innovative Computing and Applications (IJICA) 2019 Vol.10 No.2 pp.86 - 99 Abstract: This paper presents the improved interline unified power quality conditioner (iUPQC) and its controlling aspects for nonlinear loads. The nonlinear loads are the major sources of harmonics and raise the power quality issues. However, the iUPQC compensates the harmonics that are generated by a nonlinear load besides reactive power support. This in turn minimises the harmonic distortion both in the source current as well as voltage. Furthermore, it also provides the current and voltage imbalance compensations, reactive power, frequency and voltage support at grid. The simulation of entire power system is fulfilled using proposed FUZZY controller and compared with the conventional PI controller. The performance of both the controllers is sifted in terms of % total harmonic distortion (THD) by considering different case studies having the 3-φ diode rectifier connected to R, RL and RLE loads. The MATLAB/Simulink version R2012b is used for accomplishing the in depth simulation studies. Inderscience Publishers - linking academia, business and industry through research

Title: Development of fuzzy logic controller for improved interline unified power quality conditioner

Authors: Ravindranath Tagore Yadlapalli; Rajanand Patnaik Narasipuram; Anusha Dodda

Addresses: Department of Electrical and Electronics Engineering, R.V.R. & J.C. College of Engineering, Chowdavaram, Guntur, 522019, Andhra Pradesh, India ' Enigma Motors Pvt Ltd., Bhubaneswar, Odisha, 751024, India ' Department of Electrical and Electronics Engineering, Vignan's Lara Institute of Technology and Science, Vadlamudi, Guntur, 522213, Andhra Pradesh, India

Abstract: This paper presents the improved interline unified power quality conditioner (iUPQC) and its controlling aspects for nonlinear loads. The nonlinear loads are the major sources of harmonics and raise the power quality issues. However, the iUPQC compensates the harmonics that are generated by a nonlinear load besides reactive power support. This in turn minimises the harmonic distortion both in the source current as well as voltage. Furthermore, it also provides the current and voltage imbalance compensations, reactive power, frequency and voltage support at grid. The simulation of entire power system is fulfilled using proposed FUZZY controller and compared with the conventional PI controller. The performance of both the controllers is sifted in terms of % total harmonic distortion (THD) by considering different case studies having the 3-φ diode rectifier connected to R, RL and RLE loads. The MATLAB/Simulink version R2012b is used for accomplishing the in depth simulation studies.

Keywords: interline dynamic voltage restorer; IDVR; improved interline unified power quality conditioner; iUPQC; interline voltage controller; IVOLCON; fuzzy logic controller; FLC; proportional integral; PI controller; total harmonic distortion; THD%.

DOI: 10.1504/IJICA.2019.102098

International Journal of Innovative Computing and Applications, 2019 Vol.10 No.2, pp.86 - 99

Received: 04 Sep 2018
Accepted: 20 Oct 2018
Published online: 06 Sep 2019 *

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Title: Development of fuzzy logic controller for improved interline unified power quality conditioner

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