Total Harmonic Distortion Minimization of Multilevel Converters Using Genetic Algorithms

Salami, Abolfazl; Bayat, B.

doi:10.4236/am.2013.47139

Cited by 10 publications

(5 citation statements)

References 6 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Reference [53] describes a GA approach to minimize the THD for the whole range of the modulation index in a three phase 11-level inverter, taking the switching angles as decision variables. For comparison purposes, the switching angles were first calculated using a NR based method.…”

Section: Survey Resultsmentioning

confidence: 99%

Metaheuristic Optimization Methods Applied to Power Converters: A Review

León-Aldaco

Calleja

Aguayo

2015

IEEE Trans. Power Electron.

154

View full text Add to dashboard Cite

Power converters systems aimed at renewable energy applications have become a common option for sustainable electricity and distributed generation, since their performance has improved, and prices have steadily been reduced in the last years. However, there are still several drawbacks that hinder their widespread installation, such as the simultaneous minimization of cost and volume, efficiency maximization, size reduction, etc. Quite often, accomplishing these goals requires dealing with complicated optimization problems, which are difficult to solve by classical methods. Metaheuristic techniques provide a viable alternative to solve complex, intricate optimization problems, such as those encountered in the development of power electronics converters. This paper presents a comprehensive coverage of metaheuristic methodologies applied in the area of power converters. The review includes a classification of the methodologies and main objective functions in each paper surveyed. An aim for this paper is to highlight the importance of the optimization tools, and the many benefits they provide to tackle the challenges encountered in the design, operation and control of power converters. O 0885-8993 (c)

show abstract

Section: Survey Resultsmentioning

confidence: 99%

Metaheuristic Optimization Methods Applied to Power Converters: A Review

León-Aldaco

Calleja

Aguayo

2015

IEEE Trans. Power Electron.

154

View full text Add to dashboard Cite

show abstract

“…The THD is employed as a performance indicator for the output voltage and current to determine the model's merit.

TH{D}_v

and

TH{D}_i

can be calculated by Equations () and (), respectively [11, 48].

\begin{equation}TH{D}_v = \ \frac{{\sqrt {V_2^2 + V_3^2 + V_4^2 + \cdots + V_n^2} }}{{{V}_1}}\frac{{\sqrt {\mathop \sum \nolimits_{n\ = \ 3,5,7, \ldots }^n V_n^2} }}{{{V}_1}}\end{equation}

\begin{equation}TH{D}_i = \ \ \frac{{\sqrt {I_2^2 + I_3^2 + \cdots + I_n^2} }}{{{I}_1}} = \frac{{\sqrt {\mathop \sum \nolimits_{n = 3,5}^n I_n^2} }}{{{I}_1}}\ \end{equation}

…”

Section: Modulation Strategies Of MMCmentioning

confidence: 99%

“…The THD is employed as a performance indicator for the output voltage and current to determine the model's merit. THD v and THD i can be calculated by Equations ( 11) and (12), respectively [11,48].…”

Section: Modulation Strategies Of MMCmentioning

confidence: 99%

Fault‐tolerant modular multilevel converter for a seamless transition between stand‐alone and grid‐connected microgrid

Mahmoud

Hafez

Yousef

et al. 2022

IET Power Electronics

View full text Add to dashboard Cite

Recently, renewable distributed generation (DG) systems have emerged to improve the power system security and reliability while reducing the environmental incompatibility of fossil fuel power plants. DG could operate either as a standalone and/or as a grid‐connected power system. The interfacing circuits of DG and their controls have to comply with utility quality regulations and afford a seamless transition from online to offline and vice versa. This article advises a simple and robust control scheme for a modular multilevel converter (MMC) that interfaces with a photovoltaic (PV) generator. The proposed control method ensures high‐quality output voltage/current waveform in online and/or offline operating modes. Moreover, the proposed control provides a seamless and swift transition from standalone to grid‐connected and vice versa. The exhibited control scheme is simulated with MATLAB/Simulink. Real‐time simulator OPAL‐RT OP4510 is used to verify the displayed simulation results. The simulation results determine the accomplishment of the proposed control technique for a seamless transition from the grid‐connected mode to the standalone mode and vice versa via MMC.

show abstract

“…Some methods involving optimization of switching angles for providing gating pulse to different switches of multilevel inverter are proposed which help in reducing the power losses to a greater extent, as the switching frequency is reduced significantly. Optimizing switching angles require use of some optimization algorithm, like Particle Swarming Optimization (PSO) [11]- [13], Genetic Algorithm (GA) [14], [15], BAT Inspired Algorithm, Evolution Algorithm, etc.…”

Section: Introductionmentioning

confidence: 99%

Power Loss Calculation in 11-Level Cascaded H-Bridge Inverter using Harmony Search Optimized Switching Scheme

Singla,

Sharma

2019

IJEAT

View full text Add to dashboard Cite

Power loss is the most significant parameter in power system analysis and its adequate calculation directly effects the economic and technical evaluation. This paper aims to propose a multi-objective optimization algorithm which optimizes dc source magnitudes and switching angles to yield minimum THD in cascaded multilevel inverters. The optimization algorithm uses metaheuristic approach, namely Harmony Search algorithm. The effectiveness of the multi-objective algorithm has been tested with 11-level Cascaded H-Bridge Inverter with optimized DC voltage sources using MATLAB/Simulink. As the main objective of this research paper is to analyze total power loss, calculations of power loss are simplified using approximation of curves from datasheet values and experimental measurements. The simulation results, obtained using multi-objective optimization method, have been compared with basic SPWM, optimal minimization of THD, and it is confirmed that the multilevel inverter fired using multi- objective optimization technique has reduced power loss and minimum THD for a wide operating range of multilevel inverter.

show abstract

Total Harmonic Distortion Minimization of Multilevel Converters Using Genetic Algorithms

Cited by 10 publications

References 6 publications

Metaheuristic Optimization Methods Applied to Power Converters: A Review

Metaheuristic Optimization Methods Applied to Power Converters: A Review

Fault‐tolerant modular multilevel converter for a seamless transition between stand‐alone and grid‐connected microgrid

Power Loss Calculation in 11-Level Cascaded H-Bridge Inverter using Harmony Search Optimized Switching Scheme

Contact Info

Product

Resources

About