PI, PID and Fuzzy logic controller for Reactive
Power and Harmonic Compensation
K. P, and K. Mahapatra. International Journal on Electrical and Power Engineering, 1 (3):
5(December 2010)
Abstract
This article describes the proportional integral
(PI), proportional integral derivative (PID) and fuzzy logic
controller (FLC) based three phase shunt active power line
conditioners (APLC) for the power-quality improvement such
as reactive power and harmonic current compensation
generated due to nonlinear loads. PI, PID controller requires
precise linear mathematical model and FLC needs linguistic
description of the system. The controller is capable of
controlling dc capacitor voltage and generating reference
source currents. Hysteresis current controller is used for
current control in PWM voltage source inverter. Extensive
simulation studies under transient and steady states are
conducted, the simulation result analysis reveal that the
APLC performs perfectly in conjunction with PI, PID and
FLC. A comparative assessment of the three different
controllers is brought out.
%0 Journal Article
%1 p2010fuzzy
%A P, Karuppanan
%A Mahapatra, Kamala Kanta
%D 2010
%E Das, Dr. Vinu V
%J International Journal on Electrical and Power Engineering
%K APLC FLC HCC PI PID
%N 3
%P 5
%T PI, PID and Fuzzy logic controller for Reactive
Power and Harmonic Compensation
%U http://doi.searchdl.org/01.IJEPE.1.3.134
%V 1
%X This article describes the proportional integral
(PI), proportional integral derivative (PID) and fuzzy logic
controller (FLC) based three phase shunt active power line
conditioners (APLC) for the power-quality improvement such
as reactive power and harmonic current compensation
generated due to nonlinear loads. PI, PID controller requires
precise linear mathematical model and FLC needs linguistic
description of the system. The controller is capable of
controlling dc capacitor voltage and generating reference
source currents. Hysteresis current controller is used for
current control in PWM voltage source inverter. Extensive
simulation studies under transient and steady states are
conducted, the simulation result analysis reveal that the
APLC performs perfectly in conjunction with PI, PID and
FLC. A comparative assessment of the three different
controllers is brought out.
@article{p2010fuzzy,
abstract = {This article describes the proportional integral
(PI), proportional integral derivative (PID) and fuzzy logic
controller (FLC) based three phase shunt active power line
conditioners (APLC) for the power-quality improvement such
as reactive power and harmonic current compensation
generated due to nonlinear loads. PI, PID controller requires
precise linear mathematical model and FLC needs linguistic
description of the system. The controller is capable of
controlling dc capacitor voltage and generating reference
source currents. Hysteresis current controller is used for
current control in PWM voltage source inverter. Extensive
simulation studies under transient and steady states are
conducted, the simulation result analysis reveal that the
APLC performs perfectly in conjunction with PI, PID and
FLC. A comparative assessment of the three different
controllers is brought out.},
added-at = {2012-10-01T09:13:39.000+0200},
author = {P, Karuppanan and Mahapatra, Kamala Kanta},
biburl = {https://www.bibsonomy.org/bibtex/247494688efdb31f7ff3732405f95d2ec/ideseditor},
editor = {Das, Dr. Vinu V},
interhash = {3ad6451e9f8d632a058a7da3755552bd},
intrahash = {47494688efdb31f7ff3732405f95d2ec},
journal = {International Journal on Electrical and Power Engineering},
keywords = {APLC FLC HCC PI PID},
month = {December},
number = 3,
pages = 5,
timestamp = {2012-10-01T09:13:39.000+0200},
title = {PI, PID and Fuzzy logic controller for Reactive
Power and Harmonic Compensation},
url = {http://doi.searchdl.org/01.IJEPE.1.3.134},
volume = 1,
year = 2010
}