Current density distributions on the cathode plates of inductive voltage cells

Hao Wei; Fengju Sun; Jiahui Yin; Aici Qiu

doi:10.1109/TPS.2014.2352111

Current density distributions on the cathode plates of inductive voltage cells

Hao Wei
, Fengju Sun
, Jiahui Yin
, Aici Qiu

Xi'an Jiaotong University
Northwest Institute of Nuclear Technology

科研成果: 期刊稿件 › 文章 › 同行评审

3 引用（Scopus）

摘要

Based on three-dimension electromagnetic models of a single-stage inductive voltage cell, the effects of arrangements of driving pulse forming lines (PFLs) and the mistiming of parallel PFLs on the azimuthal uniformity of current density distributions are investigated. The simulation results indicate that, as the number of PFLs increases from one to four, the current uniformity improves evidently, with asymmetric coefficient reduced from 25.9% to 1.0%. The mistiming of PFLs would cause current density to become asymmetric. For the given feed pulse with a risetime of 25 ns and duration of 60-70 ns, as two PFLs feed the cells, the time deviation of 20 ns could be acceptable, without causing any obvious degradation on the current uniformity and cell outputs.

源语言	英语
文章编号	6893012
页（从-至）	2846-2847
页数	2
期刊	IEEE Transactions on Plasma Science
卷	42
期	10
DOI	https://doi.org/10.1109/TPS.2014.2352111
出版状态	已出版 - 1 10月 2014
已对外发布	是

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abstract = "Based on three-dimension electromagnetic models of a single-stage inductive voltage cell, the effects of arrangements of driving pulse forming lines (PFLs) and the mistiming of parallel PFLs on the azimuthal uniformity of current density distributions are investigated. The simulation results indicate that, as the number of PFLs increases from one to four, the current uniformity improves evidently, with asymmetric coefficient reduced from 25.9\% to 1.0\%. The mistiming of PFLs would cause current density to become asymmetric. For the given feed pulse with a risetime of 25 ns and duration of 60-70 ns, as two PFLs feed the cells, the time deviation of 20 ns could be acceptable, without causing any obvious degradation on the current uniformity and cell outputs.",

keywords = "Azimuthal uniformity, Induction voltage adder, electromagnetic model, time deviation",

author = "Hao Wei and Fengju Sun and Jiahui Yin and Aici Qiu",

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doi = "10.1109/TPS.2014.2352111",

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T1 - Current density distributions on the cathode plates of inductive voltage cells

AU - Wei, Hao

AU - Sun, Fengju

AU - Yin, Jiahui

AU - Qiu, Aici

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N2 - Based on three-dimension electromagnetic models of a single-stage inductive voltage cell, the effects of arrangements of driving pulse forming lines (PFLs) and the mistiming of parallel PFLs on the azimuthal uniformity of current density distributions are investigated. The simulation results indicate that, as the number of PFLs increases from one to four, the current uniformity improves evidently, with asymmetric coefficient reduced from 25.9% to 1.0%. The mistiming of PFLs would cause current density to become asymmetric. For the given feed pulse with a risetime of 25 ns and duration of 60-70 ns, as two PFLs feed the cells, the time deviation of 20 ns could be acceptable, without causing any obvious degradation on the current uniformity and cell outputs.

AB - Based on three-dimension electromagnetic models of a single-stage inductive voltage cell, the effects of arrangements of driving pulse forming lines (PFLs) and the mistiming of parallel PFLs on the azimuthal uniformity of current density distributions are investigated. The simulation results indicate that, as the number of PFLs increases from one to four, the current uniformity improves evidently, with asymmetric coefficient reduced from 25.9% to 1.0%. The mistiming of PFLs would cause current density to become asymmetric. For the given feed pulse with a risetime of 25 ns and duration of 60-70 ns, as two PFLs feed the cells, the time deviation of 20 ns could be acceptable, without causing any obvious degradation on the current uniformity and cell outputs.

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KW - Induction voltage adder

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Current density distributions on the cathode plates of inductive voltage cells

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