HARMONICS MITIGATION OF P&O MPPT BASED
SOLAR POWERED NEUTRAL POINT CLAMPED
MULTILEVEL INVERTER
N. Kumar, S. Gawre, D. Verma, and V. Kumar. International Journal of Applied Control, Electrical and Electronics Engineering (IJACEEE), 2 (3):
01-20(August 2014)
Abstract
To supplement the power shortages, renewable energy sources are a promising source among the existing
resources of energy out of which solar PV (photo voltaic) is most popular due to its significant advantages.
Controlling the output of solar PV system and harmonics at the load end are key aspects. The main theme of
this paper is to control output of solar PV system with MPPT (maximum power point tracking) and
reduction of harmonics at the load end.In this paper, commercial solar arrays of 1.2 kW along with P&O
(perturb and observe) MPPT to track maximum power has been interfaced with neutral point clamped
multilevel inverter.Simulation has been done for different level with the aim to reduce THD (total harmonic
distortion) at the load end. Modeling and simulation of solar PV system and DC-DC boost converter has
been done using SIMSCAPE library of MATLAB and the output of Boost Converter has been interfaced with
neutral point clamped multilevel inverter which has been modeled in SIMULINK library of MATLAB. The
advantage of using SIMSCAPE library is that it models the system considering all the physical effects. The
output of solar cell has been interfaced with the boost converter. Once the system is modeled in SIMSCAPE
it can be easily implemented on hardware for real-time application.
%0 Journal Article
%1 noauthororeditor
%A Kumar, Nikhil
%A Gawre, Suresh
%A Verma, Deepak
%A Kumar, Vivek
%D 2014
%J International Journal of Applied Control, Electrical and Electronics Engineering (IJACEEE)
%K (CCM) Clamped DC-DC Inverter MPPT Multilevel Neutral Point Solar boost conduction continuous converter mode panels
%N 3
%P 01-20
%T HARMONICS MITIGATION OF P&O MPPT BASED
SOLAR POWERED NEUTRAL POINT CLAMPED
MULTILEVEL INVERTER
%U http://airccse.com/ijaceee/papers/2314ijaceee01.pdf
%V 2
%X To supplement the power shortages, renewable energy sources are a promising source among the existing
resources of energy out of which solar PV (photo voltaic) is most popular due to its significant advantages.
Controlling the output of solar PV system and harmonics at the load end are key aspects. The main theme of
this paper is to control output of solar PV system with MPPT (maximum power point tracking) and
reduction of harmonics at the load end.In this paper, commercial solar arrays of 1.2 kW along with P&O
(perturb and observe) MPPT to track maximum power has been interfaced with neutral point clamped
multilevel inverter.Simulation has been done for different level with the aim to reduce THD (total harmonic
distortion) at the load end. Modeling and simulation of solar PV system and DC-DC boost converter has
been done using SIMSCAPE library of MATLAB and the output of Boost Converter has been interfaced with
neutral point clamped multilevel inverter which has been modeled in SIMULINK library of MATLAB. The
advantage of using SIMSCAPE library is that it models the system considering all the physical effects. The
output of solar cell has been interfaced with the boost converter. Once the system is modeled in SIMSCAPE
it can be easily implemented on hardware for real-time application.
@article{noauthororeditor,
abstract = {To supplement the power shortages, renewable energy sources are a promising source among the existing
resources of energy out of which solar PV (photo voltaic) is most popular due to its significant advantages.
Controlling the output of solar PV system and harmonics at the load end are key aspects. The main theme of
this paper is to control output of solar PV system with MPPT (maximum power point tracking) and
reduction of harmonics at the load end.In this paper, commercial solar arrays of 1.2 kW along with P&O
(perturb and observe) MPPT to track maximum power has been interfaced with neutral point clamped
multilevel inverter.Simulation has been done for different level with the aim to reduce THD (total harmonic
distortion) at the load end. Modeling and simulation of solar PV system and DC-DC boost converter has
been done using SIMSCAPE library of MATLAB and the output of Boost Converter has been interfaced with
neutral point clamped multilevel inverter which has been modeled in SIMULINK library of MATLAB. The
advantage of using SIMSCAPE library is that it models the system considering all the physical effects. The
output of solar cell has been interfaced with the boost converter. Once the system is modeled in SIMSCAPE
it can be easily implemented on hardware for real-time application. },
added-at = {2018-05-22T08:24:14.000+0200},
author = {Kumar, Nikhil and Gawre, Suresh and Verma, Deepak and Kumar, Vivek},
biburl = {https://www.bibsonomy.org/bibtex/22a754d7f96d3d7658249ea059e3c4373/electical12345},
interhash = {1fbe46730a9f887af7b37ecdedc1a0c5},
intrahash = {2a754d7f96d3d7658249ea059e3c4373},
issn = {2394-0816},
journal = {International Journal of Applied Control, Electrical and Electronics Engineering (IJACEEE) },
keywords = {(CCM) Clamped DC-DC Inverter MPPT Multilevel Neutral Point Solar boost conduction continuous converter mode panels},
language = {English},
month = aug,
number = 3,
pages = {01-20},
timestamp = {2018-05-22T08:24:14.000+0200},
title = {HARMONICS MITIGATION OF P&O MPPT BASED
SOLAR POWERED NEUTRAL POINT CLAMPED
MULTILEVEL INVERTER },
url = {http://airccse.com/ijaceee/papers/2314ijaceee01.pdf},
volume = 2,
year = 2014
}