Md. Halim Mondol scite author profile

A new three phase multilevel inverter with reduced number of components count is proposed in this paper. This inverter is designed using a single DC source per phase to generate multiple level output voltage which makes it suitable for low and medium voltage applications, including ac-coupled renewables or energy storages. A generalized circuit configuration is shown in this paper following which the number of output voltage level can be increased as per expectation. Although, each element endures the voltage stress equivalent to the input DC voltage, the value of total standing voltage (TSV) is reduced by the utilization of minimized number of components with respect to the number of series connected capacitors. Further, staircase modulation scheme is used to generate the switching signals. Hence, the proposed inverter can be operated at low switching frequency with optimal output current harmonic distortion which decreases switching losses and suppresses power factor falling. In order to validate the theoretical explanations and practical performances of the proposed inverter, the hypothesis is simulated for 9, 13 and 39 output voltage level inverters for three phase with a line voltage total harmonic distortion (THD) of 6.06%, 4.16% and 2.10% respectively in MATLAB/Simulink and a 5-level single phase laboratory prototype is implemented in the laboratory. INDEX TERMS Pulse width modulation inverters, multilevel inverters, total harmonic distortion, total standing voltage, photovoltaic systems, energy storage.

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A Compact and Cost Efficient Multiconverter for Multipurpose Applications

Mondol

Uddin

Hossain

et al. 2020

IEEE Access

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This paper presents a novel single-phase to single-phase multiconverter topology that can be applied in multiple areas. The proposed multiconverter is designed with only two soft power semiconductor switches (e.g. MOSFET or IGBT), four power diodes and a center-tapped transformer which makes it more compact in size, decrease the gate driving complexity, reduce the total equipment costs and enhance the energy conversion efficiency with minimized losses. Furthermore, the utilization of the transformer in the proposed converter mitigates the multiple AC source requirement problems and provides galvanic isolation which increases the reliability of the converter. Moreover, the presented multiconverter is applicable in various areas including electric traction as a speed controller, induction heating, AC and DC variable power supplies, etc. which signify the competence of this converter in energy conversion appliances. However, a comparative analysis of the offered converter with the existing AC-AC converters is also introduced in this paper with respect to the number of components, equipment costs, gate driving complexity, and application areas. In order to evaluate the performance of the proposed multiconverter, the simulation-based results carried out in MATLAB/Simulink are presented and analyzed in this paper with proper descriptions. Finally, a scaled-down prototype is developed in the laboratory to validate the simulation results and the feasibility of the proposed multiconverter. INDEX TERMS Cycloconverter, controlled rectifier, electric traction, matrix converter, multiconverter, static frequency changer (SFC), voltage regulator.

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A New Hybrid Multilevel Inverter Topology With Level Shifted Multicarrier PWM Technique for Harvesting Renewable Energy

Mondol

Biswas

Rahman

et al. 2022

IEEE Trans. on Ind. Applicat.

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A new magnetic linked three-phase multilevel inverter with reduced number of switches and balanced DC sources

2021

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Detection of Tomato Leaf Diseases Using Transfer Learning Architectures: A Comparative Analysis

Peyal

Shahriar

Sultana

et al. 2021

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Md. Halim Mondol

Compact Three Phase Multilevel Inverter for Low and Medium Power Photovoltaic Systems

A Compact and Cost Efficient Multiconverter for Multipurpose Applications

A New Hybrid Multilevel Inverter Topology With Level Shifted Multicarrier PWM Technique for Harvesting Renewable Energy

A new magnetic linked three-phase multilevel inverter with reduced number of switches and balanced DC sources

Detection of Tomato Leaf Diseases Using Transfer Learning Architectures: A Comparative Analysis

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