Novel Low-Loss Reverse-Conducting Insulated-Gate Bipolar Transitor with Collector-Side Injection-Enhanced Structure

Zhang, Peijian; Qiu, Sheng; Zhu, Kunfeng; Chen, Wensuo

doi:10.3390/electronics13010023

Electronics

2023

DOI: 10.3390/electronics13010023

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Novel Low-Loss Reverse-Conducting Insulated-Gate Bipolar Transitor with Collector-Side Injection-Enhanced Structure

Peijian Zhang,

Sheng Qiu,

Kunfeng Zhu

et al.

Abstract: In this paper, a new concept of low-loss Reverse-Conducting Insulated-Gate Bipolar Transistor with Collector-side Injection-Enhanced structure (RC-IGBT-CIE) is proposed and investigated using simulations. In reverse conduction (the on state of the diode mode), the CIE structure enhances the collector-side carrier concentration of the proposed RC-IGBT-CIE, which results in low reverse-conducting voltage (VF). The low reverse recovery loss and low turn-on loss using an inductive load circuit are obtained by usin… Show more

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2024

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Cited by 3 publications

References 33 publications

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Novel power MOSFET with drain-side N–Si/N-SiGe heterojunctions for improving reverse recovery performance

Yu,

Huang,

Shen

et al. 2024

Micro and Nanostructures

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Novel power MOSFET with drain-side N–Si/N-SiGe heterojunctions for improving reverse recovery performance

Yu,

Huang,

Shen

et al. 2024

Micro and Nanostructures

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16kV 4H-SiC Reverse-Conducting IGBT With a Collector-Side Injection-Enhanced Structure for Low Reverse-Conducting Voltage

Yu,

Huang,

Shen

et al. 2024

IEEE Electron Device Lett.

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Research on Thyristor Reverse Recovery Behavior in High-Voltage Direct Current Transmission Converter Valves and Its Application in Integrated Protection Systems

Wen,

Song,

Huang

et al. 2024

Energies

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The performance of converter valves is essential for the reliability and efficiency of high-voltage direct current (HVDC) transmission systems. Converter valves consist of multiple thyristor levels, each requiring regular testing to ensure proper functionality. Protective triggering tests play a crucial role in evaluating the safety and performance of these thyristors during maintenance. This study introduces a high-power experimental setup designed to investigate the effects of varying current levels and thermal stresses on the reverse recovery behavior of thyristors—a key performance indicator. Results indicate that the reverse recovery time increases rapidly with higher current levels before reaching a saturation point. Additionally, prolonged exposure to high temperatures significantly reduces both the storage time and the amount of charge recovered during the reverse recovery process. These findings enable the optimization of protective test settings, thereby enhancing the effectiveness of the Thyristor Control Unit (TCU) in protecting converter valves. Improved testing methodologies derived from this research contribute to more reliable maintenance practices and increased overall stability of HVDC transmission systems.

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Novel Low-Loss Reverse-Conducting Insulated-Gate Bipolar Transitor with Collector-Side Injection-Enhanced Structure

Cited by 3 publications

References 33 publications

Novel power MOSFET with drain-side N–Si/N-SiGe heterojunctions for improving reverse recovery performance

Novel power MOSFET with drain-side N–Si/N-SiGe heterojunctions for improving reverse recovery performance

16kV 4H-SiC Reverse-Conducting IGBT With a Collector-Side Injection-Enhanced Structure for Low Reverse-Conducting Voltage

Research on Thyristor Reverse Recovery Behavior in High-Voltage Direct Current Transmission Converter Valves and Its Application in Integrated Protection Systems

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