Milad Rezaie scite author profile

This study proposes a high step-up DC-DC converter based on quadratic boost converter. The proposed converter is composed of a quadratic boost converter and a multiplier cell. The converter can be used in low power applications which need to increase output voltage with high gain. In order to reduce number of the components, the multiplier cell is composed with the quadratic boost converter in a way to share one of their inductors. The found location of the multiplier adds some advantages to the proposed converter in comparison to the similar converters. The converter advantages include higher voltage gain, lower voltage stress on diodes and capacitors and requiring smaller inductors. To verify the points, principle operation of the converter is analysed and it has been compared with other converters. The proposed converter is designed and implemented using its main equations. Experiments are done along the lines of the analysis to prove that they have good accordance with each other. Operation quality factors such as voltage stress, voltage gain, efficiency, dynamic of the converter and operation in transient conditions are investigated using the experiments.

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High step‐up DC–DC converter composed of quadratic boost converter and switched capacitor

Rezaie

Abbasi

Kerekes

2020

IET power electron.

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This study proposes a high step‐up DC–DC converter which is composed of a conventional quadratic boost converter, a switched capacitor and a coupled inductor. To reduce the number of components, the primary side of the coupled inductor is shared with the quadratic boost converter as one of its inductors. Furthermore, the output capacitor of the quadratic boost converter is divided into two capacitors and one of them is utilised in common with the switched capacitor. The converter is analysed and the obtained equations are used to compare the proposed converter with other converters which have similar structures. According to the comparisons, the proposed converter has advantages such as higher voltage gain, the lower voltage stress on the power switch and requiring a smaller inductor. In addition, the input source current is continuous and there is a common ground between the source and load. Increasing the turn ratio of the coupled inductor causes reduction of voltage stress on the power switch, diodes and capacitors. To investigate performance of the proposed converter, an 80 W prototype is built. The experiments show good accordance with the analysis and they demonstrate the high step‐up capability of the proposed converter.

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Ultrahigh Step-Up DC–DC Converter Composed of Two Stages Boost Converter, Coupled Inductor, and Multiplier Cell

Rezaie

Abbasi

2022

IEEE Trans. Ind. Electron.

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Effect of hospital waste pyrolysis hydrocarbon (HWPHC) on fracture behavior of Warm Mix asphalt (WMA) under freeze–thaw damage (FTD)

Zarei

Tabasi

Ghandehari

et al. 2022

Construction and Building Materials

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Ultrahigh Step-Up DC–DC Converter Based on Two Boosting Stages With Low Voltage Stress on Its Switches

Abbasi

Talebi

Rezaie

et al. 2023

IEEE Trans. Ind. Electron.

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Milad Rezaie

Effective combination of quadratic boost converter with voltage multiplier cell to increase voltage gain

High step‐up DC–DC converter composed of quadratic boost converter and switched capacitor

Ultrahigh Step-Up DC–DC Converter Composed of Two Stages Boost Converter, Coupled Inductor, and Multiplier Cell

Effect of hospital waste pyrolysis hydrocarbon (HWPHC) on fracture behavior of Warm Mix asphalt (WMA) under freeze–thaw damage (FTD)

Ultrahigh Step-Up DC–DC Converter Based on Two Boosting Stages With Low Voltage Stress on Its Switches

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