A Pseudospark Gap in the Inductive-Energy-Storage Circuit

被引:0
|
作者
N. M. Vereschagin
V. D. Bochkov
S. A. Kruglov
机构
[1] Ryazan State Radio Engineering Academy,
[2] OOO Impul'snye Tekhnologii,undefined
来源
Instruments and Experimental Techniques | 2002年 / 45卷
关键词
Physical Chemistry; Energy Storage; Rise Time; Storage System; Voltage Pulse;
D O I
暂无
中图分类号
学科分类号
摘要
A pseudospark gap is described that is capable of interrupting a current of up to 1 kA and shaping voltage pulses with an amplitude of up to 110 kV and rise time of ∼100 ns. Analytical expressions for calculating the energy released in the device at the switching-off stage and the efficiency of the generator with an inductive energy storage system are obtained. The characteristics of the pseudospark gap and of a similar-design thyratron connected in the same circuit are compared. It is found that the turn-off time of the pseudospark gap is shorter than that of the thyratron by a factor of 2.5.
引用
收藏
页码:780 / 783
页数:3
相关论文
共 50 条
  • [1] A pseudospark gap in the inductive-energy-storage circuit
    Vereschagin, NM
    Bochkov, VD
    Kruglov, SA
    INSTRUMENTS AND EXPERIMENTAL TECHNIQUES, 2002, 45 (06) : 780 - 783
  • [2] Inductive-energy-storage pulsed power source energized by a Marx generator
    Graduate School of China Academy of Engineering Physics, Beijing 100088, China
    不详
    不详
    Gaodianya Jishu, 2009, 3 (657-660):
  • [3] An PBD•-73C vacuum spark gap with a control circuit based on an inductive energy storage
    Korotkov, S. V.
    Zhmodikov, A. L.
    Sidorov, V. A.
    Alferov, D. F.
    INSTRUMENTS AND EXPERIMENTAL TECHNIQUES, 2011, 54 (04) : 529 - 532
  • [4] An PBЕ-73C vacuum spark gap with a control circuit based on an inductive energy storage
    S. V. Korotkov
    A. L. Zhmodikov
    V. A. Sidorov
    D. F. Alferov
    Instruments and Experimental Techniques, 2011, 54 : 529 - 532
  • [5] Performance model of vacuum arc thruster with inductive energy storage circuit
    Bai, Song
    Wang, Ningfei
    Xie, Kan
    Miao, Long
    Xia, Qimeng
    ACTA ASTRONAUTICA, 2021, 186 (186) : 426 - 437
  • [6] Application of the Generalized Commutation Laws in a Circuit with a Double Inductive Energy Storage
    Pustynnikov V.S.
    Nosov G.V.
    Russian Electrical Engineering, 2020, 91 (12): : 761 - 766
  • [7] STUDY OF PSEUDOSPARK GAP WITH ADDITIONAL GLOW-DISCHARGE IN STARTER CIRCUIT
    KLIMENKO, KA
    KOLESNIKOV, AV
    KOROLEV, YD
    RABOTKIN, VG
    FRANTS, OB
    SHEMYAKIN, IA
    ZHURNAL TEKHNICHESKOI FIZIKI, 1992, 62 (02): : 206 - 209
  • [8] Amplification of Nanosecond Pulsed Power by Synchronization of Double Inductive Energy Storage Circuit
    Sugai, Taichi
    Yawata, Kosuke
    Tokuchi, Akira
    Jiang, Weihua
    IEEE TRANSACTIONS ON PLASMA SCIENCE, 2019, 47 (10) : 4506 - 4511
  • [9] A VARIABLE INDUCTOR CIRCUIT-DESIGN FOR INDUCTIVE ENERGY-STORAGE SYSTEMS
    ANDRIANOV, VV
    BAEV, VP
    KAZANTSEV, NA
    OSTASHEV, VE
    PARIZH, MB
    SHEINKMAN, VS
    REVIEW OF SCIENTIFIC INSTRUMENTS, 1990, 61 (05): : 1537 - 1542
  • [10] Circuit simulation and experimental research of pulse generator with inductive energy storage and transformer
    Yang, Yu
    Wu, Youcheng
    Geng, Lidong
    Hao, Shirong
    Wang, Minhua
    Han, Wenhui
    Zhang, Nanchuan
    Qiangjiguang Yu Lizishu/High Power Laser and Particle Beams, 2009, 21 (04): : 621 - 624
12345