Mathematical formulation of multicarrier PWM techniques and design an eleven-level modular multilevel inverter to improve power quality

被引：0

作者：

Gnanavel Chinnaraj

Vanchinathan Kumarasamy

Muthukumar Paramasivan

Gokul Chandrasekaran

Neelam Sanjeev Kumar

机构：

[1] AMET Deemed to be University,Department of Electrical and Electronics Engineering

[2] Kanathur,Department of Electrical and Electronics Engineering

[3] Velalar College of Engineering and Technology,Department of Electrical and Electronics Engineering

[4] Prasad V. Potluri Siddhartha Institute of Technology,Department of Biomedical Engineering

[5] Saveetha School of Engineering,undefined

[6] Saveetha Institute of Medical and Technical Sciences,undefined

来源：

International Journal of System Assurance Engineering and Management | 2023年 / 14卷

关键词：

Modular multilevel inverter; Multicarrier pulse width modulation; Total harmonic distortion;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

This paper presents a design of modular multilevel inverter (MMI) using multicarrier PWM (MCPWM) techniques to improve the power quality. The proposed research work explores with the solar fed single phase eleven level inverter and modeling of MCPWM. MMI is designed and developed by employing the modulation techniques for generating the higher output voltage amplitude with several output levels. MCPWM is used for generating switching pulses for the proposed 11-level inverter. The level shifting MCPWM technique is used in this work to investigate a multilevel inverter with equal DC sources. The modeling of modulation approaches is set up in MATLAB/Simulink, and the same findings are tested experimentally to establish the schemes' practicality.

引用

页码：1218 / 1227

页数：9

共 65 条

[1]

Ajami A(2013)Developed cascaded multilevel inverter topology to minimise the number of circuit devices and voltage stresses of switches IET Power Electron 7 459-466

[2]

Oskuee MRJ(2018)Compact switched capacitor multilevel inverter (CSCMLI) with self-voltage balancing and boosting ability IEEE Trans Power Electron 34 4009-4013

[3]

Mokhberdoran A(2014)Cascaded multilevel inverter with series connection of novel H-bridge basic units IEEE Trans Ind Electron 61 6664-6671

[4]

Van den Bossche A(2013)Cascaded multilevel inverter using sub-multilevel cells Electr Power Syst Res 96 101-110

[5]

Ali JSM(2019)A normalized output error-based sliding-mode controller for the DC–DC cascade boost converter IEEE Trans Circuits Syst II Express Briefs 67 92-96

[6]

Krishnasamy V(2011)Review of multilevel voltage source inverter topologies and control schemes Energy Convers Manag 52 1114-1128

[7]

Babaei E(2015)Hybrid topology of symmetrical multilevel inverter using less number of devices IET Power Electron 8 2125-2135

[8]

Laali S(2016)Reduction in number of devices for symmetrical and asymmetrical multilevel inverters IET Power Electron 9 698-709

[9]

Alilu S(2018)Experimental validation of an eleven level symmetrical inverter using genetic algorithm and queen bee assisted genetic algorithm for solar photovoltaic applications J Circ Syst Comput 27 1850212-2198

[10]

Babaeia E(2012)Novel voltage stability analysis of a grid connected-photovoltic system J Global Res Comput Sci 3 2012-1021

← 1 2 3 4 5 6 7 →