A High Power Density Zero-Voltage-Switching Totem-Pole Power Factor Correction Converter

Tausif, Ali; Bakan, Ahmet Faruk; Dusmez, Serkan

doi:10.1109/tpel.2023.3326077

IEEE Trans. Power Electron.

2024

DOI: 10.1109/tpel.2023.3326077

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A High Power Density Zero-Voltage-Switching Totem-Pole Power Factor Correction Converter

Ali Tausif,

Ahmet Faruk Bakan,

Serkan Dusmez

Abstract: The power factor correction (PFC) circuit is an essential component in high-power supplies with non-linear loads, occupying nearly half the size of a typical power supply. To minimize the size of passive components in PFC converters, the switching frequency must be increased to several hundred kHz, a challenge even when employing Gallium Nitride (GaN) devices under hard-switching conditions. This paper proposes a new GaN based Totem-pole (TP) PFC converter integrated with a bidirectional soft switching cell. U… Show more

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Cited by 3 publications

References 33 publications

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Advanced dual-switch converter with proportional integral technique for enhanced efficiency and power quality in electric vehicle energy storage

Edwin Isaac Raj,

Carmel Sobia,

Ravindran

2024

Electr Eng

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Advanced dual-switch converter with proportional integral technique for enhanced efficiency and power quality in electric vehicle energy storage

Edwin Isaac Raj,

Carmel Sobia,

Ravindran

2024

Electr Eng

View full text Add to dashboard Cite

High-gain DC-DC converter with triple-winding coupled inductor for enhanced power quality in renewable energy applications

Pandiarajan,

Sreekanth,

Muniraj

et al. 2024

Electr Eng

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Variable-Frequency Control for Totem-Pole Bridgeless Power Factor Correction Converter to Achieve Zero-Voltage Switching Without Zero-Crossing Detection Circuits

Xi,

Li,

et al. 2024

Electronics

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The totem-pole bridgeless power factor correction (PFC) converter, known for its advantages including simple topology, capability for zero-voltage switching (ZVS), and low common mode interference, presents an opportunity to enhance the efficiency and environmental friendliness of power systems. However, these converters have issues such as ZVS, requiring zero-crossing detection (ZCD) under circuits’ critical continuous mode (CRM) or additional auxiliary resonant circuits, resulting in increased circuit costs and control complexity. Therefore, this paper proposes a variable switching frequency digital control method to achieve ZVS under a wide operating range without ZCD circuits. At the same time, under the premise of ZVS, an interleaved parallel scheme is adopted to further minimize the current ripple and enhance the quality of the current waveform. Finally, an experimental 2 kW two-phase interleaved totem-pole bridgeless PFC converter prototype is designed to verify that the proposed method is correct and effective. The experimental prototype can reach an efficiency of 97.78%.

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A High Power Density Zero-Voltage-Switching Totem-Pole Power Factor Correction Converter

Cited by 3 publications

References 33 publications

Advanced dual-switch converter with proportional integral technique for enhanced efficiency and power quality in electric vehicle energy storage

Advanced dual-switch converter with proportional integral technique for enhanced efficiency and power quality in electric vehicle energy storage

High-gain DC-DC converter with triple-winding coupled inductor for enhanced power quality in renewable energy applications

Variable-Frequency Control for Totem-Pole Bridgeless Power Factor Correction Converter to Achieve Zero-Voltage Switching Without Zero-Crossing Detection Circuits

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