Numerical Simulation of Azimuthal Uniformity of Injection Currents in Single-Point-Feed Induction Voltage Adders

In order to investigate the injection current uniformity around the induction cell bores, two fully electromagnetic (EM) models are respectively established for a single-stage induction cell and an induction voltage adder (IVA) with three cells stacked in series, without considering electron emissio...

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Bibliographic Details
Published in:Plasma science & technology 2015-03, Vol.17 (3), p.235-240
Main Author: 魏浩 孙凤举 尹佳辉 呼义翔 梁天学 丛培天 邱爱慈
Format: Article
Language:English
Subjects:
Computer simulation
Electric potential
Electromagnetic induction
Injection current
Mathematical models
Time measurements
Variability
Voltage
加法器
单点
感应电压
数值模拟
注入电流
输出电压
非均匀性
驱动脉冲
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Summary:In order to investigate the injection current uniformity around the induction cell bores, two fully electromagnetic (EM) models are respectively established for a single-stage induction cell and an induction voltage adder (IVA) with three cells stacked in series, without considering electron emission. By means of these two models, some factors affecting the injection current uni- formity are simulated and analyzed, such as the impedances of adders and loads, cell locations, and feed timing of parallel driving pulses. Simulation results indicate that higher impedances of adder and loads are slightly beneficial to improve injection current uniformity. As the impedances of adder and loads increase from 5 Ω to 30Ω, the asymmetric coefficient of feed currents decreases from 10.3% to 6.6%. The current non-uniformity within the first cell is a little worse than that in other downstream cells. Simulation results also show that the feed timing would greatly affect current waveforms, and consequently cause some distortion in pulse fronts of cell output voltages. For a given driving pulse with duration time of 70-80 ns, the feed timing with a time deviation of less than 20 ns is acceptable for the three-cell IVAs, just causing the rise time of output voltages to increase about 5 ns at most and making the peak voltage decrease by 3.5%.
ISSN:1009-0630
DOI:10.1088/1009-0630/17/3/11