Circuit analysis and modeling of a soft-switching pulse power supply based on full-bridge inverter for DBD application

Tang, Xiongmin; Jiang, Tianhong; Chen, Weizheng; Lin, Zhihong; Zhou, Zexin; Chen, Yongquan; Zhang, Miao

doi:10.1108/cw-10-2021-0272

2022

DOI: 10.1108/cw-10-2021-0272

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Circuit analysis and modeling of a soft-switching pulse power supply based on full-bridge inverter for DBD application

Xiongmin Tang

Tianhong Jiang

Weizheng Chen

et al.

Abstract: Purpose How to use a simple and classical topology to provide a high-efficiency excitation voltage for dielectric barrier discharge (DBD) loads is one of the primary problems to be solved for DBD application fields. Design/methodology/approach To address the issue, a set of modes that can generate a high-efficiency pulse excitation voltage in a full-bridge inverter are adopted. With the set of modes, the unique equivalent circuit of DBD loads and the parasitic parameter of the step-up transformer can be full… Show more

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2024

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Cited by 1 publication

References 28 publications

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A pulsed bipolar current-mode power supply with high power factor in a single stage for dielectric barrier discharge application

Tang,

Zhou,

Chen

et al. 2024

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Purpose Dielectric barrier discharge (DBD) is widely used in the treatment of skin disease, surface modification of material and other fields of electronics. The purpose of this paper is to design a high-performance power supply with a compact structure for excimer lamps in electronics application. Design/methodology/approach To design a high-performance power supply with a compact structure remains a challenge for excimer lamps in electronics application, a current-source type power supply in a single stage with power factor correction (PFC) is proposed. It consists of an excitation voltage generation unit and a PFC unit. By planning the modes of the excitation voltage generation unit, a bipolar pulse excitation voltage with a high rising and falling rate is generated. And a high power factor (PF) on the AC side is achieved by the interaction of a non-controlled rectifier and two inductors. Findings The experimental results show that not only a high-frequency and high-voltage bipolar pulse excitation voltage with a high average rising and falling rate (7.51GV/s) is generated, but also a high PF (0.992) and a low total harmonic distortion (5.54%) is obtained. Besides, the soft-switching of all power switches is realized. Compared with the sinusoidal excitation power supply and the current-source power supply, the proposed power supply in this paper can take advantage of the potential of excimer lamps. Originality/value A new high-performance power supply with a compact structure for DBD type excimer lamps is proposed. The proposed power supply can work stably in a wide range of frequencies, and the smooth regulation of the discharge power of the excimer lamp can be achieved by changing the switching frequency. The ideal excitation can be generated, and the soft switching can be realized. These features make this power supply a key player in the outstanding performance of the DBD excimer lamps application.

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A pulsed bipolar current-mode power supply with high power factor in a single stage for dielectric barrier discharge application

Tang,

Zhou,

Chen

et al. 2024

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Circuit analysis and modeling of a soft-switching pulse power supply based on full-bridge inverter for DBD application

Cited by 1 publication

References 28 publications

A pulsed bipolar current-mode power supply with high power factor in a single stage for dielectric barrier discharge application

A pulsed bipolar current-mode power supply with high power factor in a single stage for dielectric barrier discharge application

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