Analysis and Experimental Verification of the Peaking Capacitor’s Flashover Process in an EMP Simulator

Wang, Yi; Chen, Zhiqiang; Jia, Wei; Wu, Wei; Cheng, Le; Xie, Lizhe; Wu, Gang; Mei, Kuizhi

doi:10.1109/access.2022.3194630

IEEE Access

2022

DOI: 10.1109/access.2022.3194630

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Analysis and Experimental Verification of the Peaking Capacitor’s Flashover Process in an EMP Simulator

Yi Wang

Zhiqiang Chen

Wei Jia

et al.

Abstract: The flashover process of the peaking capacitor in the electromagnetic pulse (EMP) simulator is studied based on theoretical analyses and experimental verification in this paper. There are deeper and denser ablation spots on the film surface near the inner core of the destroyed peaking capacitor, while the damage of the outer film is relatively slight, which indicates that the flashover current along the inner film is larger. Besides, the circuit simulation analyses show that the earlier the flashover occurs on… Show more

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2023

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Development of a 3 MV coaxial peaking capacitor for large-scale electromagnetic pulse simulator

Chen,

Jia,

et al. 2023

Review of Scientific Instruments

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Coaxial peaking capacitor is a key component in high-altitude electromagnetic pulse (EMP) simulators with fast front pulse output. It poses significant technical and engineering challenges in limiting radiation field amplitude and test space. This paper presents the design and testing of a 180 pF, 3 MV coaxial peaking capacitor with improved insulation performance. In the insulation design, the length of the dielectric film is extended to reduce the background electric field on the flashover path. The electric field threshold obtained from image diagnosis is used as a reference. During capacitor testing, the insulation characteristics are diagnosed using both direct and indirect methods. The voltage measured by a D-dot probe, the output waveform of the Marx generator in the primary source, and the radiation field waveform are analyzed to understand the flashover characteristics of the capacitor and to improve the reliability of the test results. The experimental results demonstrate that the peaking capacitor can operate stably at 3.0 MV. If flashover occurring on the dropping edge of the pulse is permitted, the operating voltage can be greater than 3.7 MV without significantly affecting the radiation field waveform. The analysis on the surface flashover morphology of the peaking capacitor reveals that the flashover mainly occurs at the dropping edge of the capacitor's waveform, indicating that the damage to the film is not serious. This research significantly increases the working voltage of coaxial peaking capacitors and contributes to the development of high-altitude EMP simulation technology.

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Development of a 3 MV coaxial peaking capacitor for large-scale electromagnetic pulse simulator

Chen,

Jia,

et al. 2023

Review of Scientific Instruments

View full text Add to dashboard Cite

show abstract

Progress in developing high-altitude electromagnetic pulse simulators

Wu¹,

Wang²,

Wang³

et al. 2023

Sci. Sin.-Phys. Mech. Astron.

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Analysis and Experimental Verification of the Peaking Capacitor’s Flashover Process in an EMP Simulator

Cited by 2 publications

References 20 publications

Development of a 3 MV coaxial peaking capacitor for large-scale electromagnetic pulse simulator

Development of a 3 MV coaxial peaking capacitor for large-scale electromagnetic pulse simulator

Progress in developing high-altitude electromagnetic pulse simulators

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