Multilevel inverter is an effective topology for
increasing power demand and reducing harmonics of AC
waveforms. This paper presents an efficient seven-level
asymmetric cascaded multilevel inverter suited for renewable
energy applications. A digital control method employing flip-
flops has been proposed which reduces Total Harmonic
Distortion (THD) and switching losses compared to the
conventional PWM technique. Various performance
parameters namely THD, switching loss, first-order distortion
factor (DF1) and second-order distortion factor (DF2) is
analyzed and a simulation model of the proposed digital
control is developed in MATLAB/SIMULINK. Hardware
prototype will be built to validate the results.
%0 Generic
%1 drrseyezhai2013design
%A Dr.R.Seyezhai, Dr.Mrunal Deshpande
%A Dr.B.L.Mathur,
%B 2013 Information Technology and Power Electronics
%D 2013
%E Nishizaki, Dr. Shin-ya
%I ACEEE (A Computer division of IDES)
%K Asymmetric control digital inverter multilevel
%T Design and Development of Digital control based Asymmetric Multilevel Inverter for Renewable Energy Systems
%U http://searchdl.org/public/book_series/LSCS/4/15.pdf
%X Multilevel inverter is an effective topology for
increasing power demand and reducing harmonics of AC
waveforms. This paper presents an efficient seven-level
asymmetric cascaded multilevel inverter suited for renewable
energy applications. A digital control method employing flip-
flops has been proposed which reduces Total Harmonic
Distortion (THD) and switching losses compared to the
conventional PWM technique. Various performance
parameters namely THD, switching loss, first-order distortion
factor (DF1) and second-order distortion factor (DF2) is
analyzed and a simulation model of the proposed digital
control is developed in MATLAB/SIMULINK. Hardware
prototype will be built to validate the results.
@conference{drrseyezhai2013design,
abstract = {Multilevel inverter is an effective topology for
increasing power demand and reducing harmonics of AC
waveforms. This paper presents an efficient seven-level
asymmetric cascaded multilevel inverter suited for renewable
energy applications. A digital control method employing flip-
flops has been proposed which reduces Total Harmonic
Distortion (THD) and switching losses compared to the
conventional PWM technique. Various performance
parameters namely THD, switching loss, first-order distortion
factor (DF1) and second-order distortion factor (DF2) is
analyzed and a simulation model of the proposed digital
control is developed in MATLAB/SIMULINK. Hardware
prototype will be built to validate the results.},
added-at = {2014-02-04T11:07:27.000+0100},
author = {Dr.R.Seyezhai, Dr.Mrunal Deshpande and Dr.B.L.Mathur},
biburl = {https://www.bibsonomy.org/bibtex/2853492c5bb6b617dae8c5f66416d873d/idescitation},
booktitle = {2013 Information Technology and Power Electronics},
editor = {Nishizaki, Dr. Shin-ya},
interhash = {c8f55af4368d23a83494df8265a1cb45},
intrahash = {853492c5bb6b617dae8c5f66416d873d},
keywords = {Asymmetric control digital inverter multilevel},
organization = {Institute of Doctors Engineers and Scientists},
publisher = {ACEEE (A Computer division of IDES)},
timestamp = {2014-02-04T11:07:27.000+0100},
title = {Design and Development of Digital control based Asymmetric Multilevel Inverter for Renewable Energy Systems},
url = {http://searchdl.org/public/book_series/LSCS/4/15.pdf},
year = 2013
}