Cascaded H-bridge Multilevel Inverter employing Front-end Flyback Converter with Single Independent DC Voltage Source

This paper presents a transformerless step-up multilevel inverter based on a switched-capacitor structure. One of the main contributions of the proposed topology is replacing the separated DC voltage source with capacitors which are charged at predetermined time intervals. Therefore, a high-level staircase voltage waveform can be achieved by discharging some of these capacitors on the load. The other contribution of the proposed structure is to eliminate the magnetic elements which traditionally boost the input DC voltage. In addition, asymmetrical or unequal amounts of capacitor voltages create more voltage levels, which enable voltage level increments without increasing the number of semiconductor devices. This paper introduces a self-balanced boost Switched-Capacitors Multilevel Inverter (SCMLI) which is able to create a nearly sinusoidal voltage waveform with a maximum voltage of up to 45 times that of the input voltage DC source. Higher level output voltage levels are also achievable by extending the circuit topology. After determination of the switching angles and selecting the proper switching states for each level, an offline NLC method is used for modulation, which eases the control implementation. Analysis, simulation and experiments are carried out for a 91-level inverter (45 levels for positive and negative voltages and one for zero voltage) are presented.

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A New Modular Multilevel Inverter Based on Step-Up Switched-Capacitor Modules

Energies ◽

10.3390/en12030524 ◽

2019 ◽

Vol 12 (3) ◽

pp. 524 ◽

Cited By ~ 7

Author(s):

Aryorad Khodaparast ◽

Erfan Azimi ◽

Ali Azimi ◽

M. Ebrahim Adabi ◽

Jafar Adabi ◽

...

Keyword(s):

Theoretical Investigation ◽

High Efficiency ◽

Harmonic Distortion ◽

Low Frequency ◽

Multilevel Inverter ◽

Voltage Source ◽

Switched Capacitor ◽

Level Control ◽

Dc Voltage ◽

Bipolar Voltage

A new structure of switched capacitor multilevel inverter (SCMLI) capable of voltage boosting and with self-balancing ability is introduced in this article. This advantage is the result of a step by step rise of capacitor voltages in each module, supplied by just one DC voltage source. The proposed topology generates a sinusoidal output waveform with a magnitude several times greater than the input one. Higher output staircase AC voltage is obtained by applying a nearest level control (NLC) modulation technique. The most significant features of this configuration can be mentioned as: fewer semiconductor devices, remarkably low total harmonic distortion (THD), desirable operating under high /low frequency, high efficiency, inherent bipolar voltage production, easy circuit expansion, ease of control and size reduction of the circuit thanks to utilizing neither bulky transformer nor inductor. Moreover, the proposed SCMLI is comprehensively surveyed through theoretical investigation and a comparison of its effectiveness to recent topologies. Eventually, the operating principle of a 25-level prototype of the suggested SCMLI is validated by simulation in the MATLAB SIMULINK environment and experimental results.

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Reduced common‐mode voltage operation of a new seven‐level hybrid multilevel inverter topology with a single DC voltage source

IET Power Electronics ◽

10.1049/iet-pel.2015.0130 ◽

2016 ◽

Vol 9 (3) ◽

pp. 519-528 ◽

Cited By ~ 19

Author(s):

Arun Rahul Sanjeevan ◽

R. Sudharshan Kaarthik ◽

K. Gopakumar ◽

P.P. Rajeevan ◽

Jose I. Leon ◽

...

Keyword(s):

Multilevel Inverter ◽

Voltage Source ◽

Common Mode ◽

Dc Voltage ◽

Common Mode Voltage ◽

Inverter Topology

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A 13-Level Asymmetrical Cascaded Inverter for Photovoltaic System With DC-DC Flyback Converter

International Journal of Recent Technology and Engineering - 2 ◽

10.35940/ijrte.c5464.098319 ◽

2019 ◽

Vol 8 (3) ◽

pp. 6584-6591

Keyword(s):

Output Voltage ◽

Harmonic Distortion ◽

Photovoltaic Cell ◽

Multilevel Inverter ◽

Photovoltaic System ◽

Solar Irradiation ◽

Voltage Source ◽

Asymmetric Mode ◽

Dc Voltage ◽

Point Tracking

In recent days, multilevel inverter has widely been used for high power application. This may be due to the reduction of total harmonic distortion (THD) of the output voltage level and having low blocking voltages of switches. In the existing system, DC voltage source which is maintained constant is given as the input to the inverters which contains the series connection of fundamental block and is analyzed in symmetric and asymmetric mode of operation to produce various voltage levels. The proposed approach replaces the DC voltage source to the Photovoltaic (PV) cell has been used which has variations in the output voltage side depends on the solar irradiation level. This Photovoltaic cell uses Maximum Power Point Tracking (MPPT) algorithm to produce required voltage. As the input to the multilevel inverter (MLI) has to be maintained constant a fly back forward converter has been used in between the Photovoltaic cell and the multilevel inverter, so that the required multiple constant output voltage has been obtained on the output of the converter. Using the output of the converter 13 output voltage levels can be obtained from the multilevel inverter. The performance of the proposed system is verified by simulation through MATLAB/Simulink environment

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