Authors :
L. Bhanu Ganesh; M.L.V. Surya Teja; T. Prerana; M. Ravi Teja; SK Ameer Hamza
Volume/Issue :
Volume 5 - 2020, Issue 6 - June
Google Scholar :
http://bitly.ws/9nMw
Scribd :
https://bit.ly/2YI58hV
DOI :
https://bit.ly/2YI58hV
Abstract :
In every walk of our life’s usage of the
power-electronic based load is increasingly drawing the
attention towards the power quality. The Internally
Bound Together Power Quality (IUPQC) is intended to
upgrade the nature of intensity in the appropriation
framework which is the combination of shunt and series
connected 2
nd order devices. This paper contrasts the
performance of IUPQC with PI Controller and Fuzzy
Logic controller in enhancing feeder utilization system
in power quality. The proposed controller enhances the
voltage regulation and their performances are
compared in terms of Total Harmonic Distortion (THD)
for the grid current. The efficiency of the IUPQC using
PI and FUZZY controller has been confirmed using
MATLAB/Simulink.
Keywords :
IUPQC, Fuzzy logic, proportional Integral.
In every walk of our life’s usage of the
power-electronic based load is increasingly drawing the
attention towards the power quality. The Internally
Bound Together Power Quality (IUPQC) is intended to
upgrade the nature of intensity in the appropriation
framework which is the combination of shunt and series
connected 2
nd order devices. This paper contrasts the
performance of IUPQC with PI Controller and Fuzzy
Logic controller in enhancing feeder utilization system
in power quality. The proposed controller enhances the
voltage regulation and their performances are
compared in terms of Total Harmonic Distortion (THD)
for the grid current. The efficiency of the IUPQC using
PI and FUZZY controller has been confirmed using
MATLAB/Simulink.
Keywords :
IUPQC, Fuzzy logic, proportional Integral.