Meysam Saeedian scite author profile

This paper presents a novel step-up DC to AC converter with only one power supply. These types of converters are suitable for renewable and sustainable energy applications with low input DC sources. The proposed topology has the ability of self-voltage balancing and does not apply end side H-bridge to produce a bipolar staircase waveform. Consequently, switching losses and voltage stress of semiconductor components are reduced to a great extent. A small DC voltage source can be used to achieve a high voltage high quality AC waveform through switching the pre-charged capacitors in series and in parallel. Circuit configuration and its operation principle, capacitors' charging process, thermal model, capacitances and losses calculations are discussed in details. Moreover, the comparison of the proposed circuit with the other single source multilevel converters shows that the proposed topology reduces the number of circuit elements. Finally, a laboratory 9-level prototype is built to verify the theoretical analyses and feasibility of the proposed topology. The experimental results show that the converter efficiency at 1 KW output power is 92.75 %.

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Cascaded multilevel inverter based on symmetric–asymmetric DC sources with reduced number of components

Saeedian

Adabi

Hosseini

2017

IET Power Electronics

105

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This study presents a new module for multilevel inverters with reduced components. Each module produces 25 levels using four asymmetrical DC voltage sources (two 1V DC and two 5V DC sources) and 10 semiconductor switches. A significant advantage of the suggested module is its potentiality in producing voltage levels with negative polarity without any end side Hbridge inverter. Therefore, switches with lower voltage ratings are used in its structure. Series connection of the proposed structure leads to a modular topology which produces more voltage levels using reasonable number of switches, gate driver circuits, power diodes and less DC voltage sources. These advantages are analysed by comparing this structure with other state-of-the-art topologies. Selective harmonic elimination pulse width modulation (SHE-PWM) scheme is used to achieve output voltage with high quality. To produce all voltage levels, two algorithms are proposed to determine DC voltage sources magnitude. The accuracy of the suggested module performance in producing all voltage levels is verified by simulation and experimental results.

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Step‐up switched‐capacitor module for cascaded MLI topologies

Saeedian

Hosseini

Adabi

2018

IET Power Electronics

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This study presents a new module for cascaded multilevel inverters (MLIs) based on switched-capacitor technique. Charging of the capacitors in the proposed switched-capacitor cell is performed in a self-balancing form. Voltage boosting capability and generating bipolar voltage levels without requiring an end-side H-bridge inverter are remarkable benefits of the proposed topology. Thereby, semiconductors with lower-voltage ratings are applied in its circuit. Comparison of the proposed inverter with traditional topologies and other recently introduced MLIs shows that the proposed topology reduces the number of circuit elements and also total blocking voltage by switches. Moreover, the proposed inverter configuration and its operating principle, capacitance, and power loss calculations, and also topology extension to achieve higher levels are investigated in depth. Finally, an experimental prototype is built to verify the theoretical analysis and feasibility of the proposed topology.

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A Five-Level Step-Up Module for Multilevel Inverters: Topology, Modulation Strategy, and Implementation

Saeedian

Hosseini

Adabi

2018

IEEE J. Emerg. Sel. Topics Power Electron.

123

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An Innovative Dual-Boost Nine-Level Inverter with Low-Voltage Rating Switches

et al. 2019

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This article presents an innovative switched-capacitor based nine-level inverter employing single DC input for renewable and sustainable energy applications. The proposed configuration generates a step-up bipolar output voltage without end-side H-bridge, and the employed capacitors are charged in a self-balancing form. Applying low-voltage rated switches is another merit of the proposed inverter, which leads to extensive reduction in total standing voltage. Thereby, switching losses as well as inverter cost are reduced proportionally. Furthermore, the comparative analysis against other state-of-the-art inverters depicts that the number of required power electronic devices and implementation cost is reduced in the proposed structure. The working principle of the proposed circuit along with its efficiency calculations and thermal modeling are elaborated in detail. In the end, simulations and experimental tests are conducted to validate the flawless performance of the proposed nine-level topology in power systems.

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Meysam Saeedian

A Novel Step-Up Single Source Multilevel Inverter: Topology, Operating Principle, and Modulation

Cascaded multilevel inverter based on symmetric–asymmetric DC sources with reduced number of components

Step‐up switched‐capacitor module for cascaded MLI topologies

A Five-Level Step-Up Module for Multilevel Inverters: Topology, Modulation Strategy, and Implementation

An Innovative Dual-Boost Nine-Level Inverter with Low-Voltage Rating Switches

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