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Chopping-peaking开关形成高功率超宽带双极脉冲的实验研究 被引量:12

Generation of high power ulta wide-band bipolar pulse with chopping-peaking switch
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摘要  设计研制了一种chopping peaking组合开关型高功率双极脉冲形成装置,通过调节两个开关的导通时刻来得到不同形状的双极脉冲。理想情况下,形成的双极脉冲电压峰 峰值等于入射脉冲峰值电压的2倍,实验中入射脉冲峰值电压为205kV的单极脉冲,获得了最大峰 峰电压为360kV的双极脉冲,是入射脉冲峰值电压的1.76倍。双极脉冲的持续时间可以改变,最大值为单极脉冲的脉宽。入射脉冲上升时间越小,得到的双极脉冲峰 峰电压就越大。 This paper presents the chopping-peaking type high power bipolar pulse former, and studies its operating principle.The bipolar pulses with different forms are gained through adjusting the conduction time. In ideal condition, the output bipolar high voltage pulses with the peak-peak voltage between the peaks of unlike polarity is twice the voltage of the injecting pulse. By tuning the gaps of chopping switch and peaking switch properly, the highest peak-peak voltage of 360kV is obtained with the injecting voltage of 205kV. The duration of the bipolar pulse can be changed,it's maximum is equal to the width of the injecting pulse.The steeper the injecting pulse,the higher the peak-peak voltage of the generated bipolar voltage pulse.
作者 樊亚军 石磊 刘国治 汪文秉 周金山 刘峰 朱郁丰
机构地区 西安交通大学微波与光通信研究所 西北核技术研究所
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2004年第4期501-504,共4页 High Power Laser and Particle Beams
基金 国防科技基础研究基金资助课题
关键词 超宽带 双极脉冲 陡化 chopping开关 peaking开关 Ultra wide-band Bipolar pulse Sharpening Chopping switch Peaking switch
分类号 TN782 [电子电信—电路与系统]
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参考文献10

  • 1Andreev Y A, Buyanov Y I, Efremov A M, et al. High power ultra wideband electromagnetic radiation generator[A]. The 11th IEEE International Pulsed Power Conference[C]. Maryland,1997. 730-735.
  • 2Dyad'kov A N, Ivanov S N, Ul'maskulov M R. Pulse generators with subnanosecond fronts on mercury reed relays[J]. Instruments and Experimental Techniques, 1998,41 (3) : 358- 361.
  • 3Shpak V G, Shunailov S A, Ulmaskulov M R, et al. Generation of high power broadband electromagnetic pulse with PRF of 100pps[A]. The 10th IEEE International Pulsed Power Conference[C]. Albuquerque, New Mexico, 1995. 666-671.
  • 4Yalandin M I, Lyubutin S K, Oulmascoulov M R, et al. Subnanosecond modulator possessing a 700MV peak power and average power of 1.5kW at repetition frequency of 3.5 kHz[A]. The 28th IEEE International Conference on Plasma Science and the 13th IEEE International Pulsed Power Conference[C]. Las Vegas, Nevada, 2001. 1630-1634.
  • 5Mankowski J, Dickens J, Kristiansen M. High voltage subnanosecond breakdown[J]. IEEE Transactions on Plasma Science, 1998, 126(3) :874-881.
  • 6Andreev Y A, Buyanov Y I, Efremov A M, et al. High power ultra widebandelectromagnetic radiation generator[A]. The 11th IEEE International Pulsed PowerConference[C]. Maryland,1997. 730-735.
  • 7Dyad'kov A N, Ivanov S N, Ul'maskulov M R. Pulse generators with subnanosecondfronts on mercury reed relays[J]. Instruments and Experimental Techniques,1998,41(3):358-361.
  • 8Shpak V G, Shunailov S A, Ulmaskulov M R, et al. Generation of high power broadbandelectromagnetic pulse with PRF of 100pps[A]. The 10th IEEE International Pulsed PowerConference[C].Albuquerque, New Mexico, 1995.666-671.
  • 9Yalandin M I, Lyubutin S K, Oulmascoulov M R, et al. Subnanosecond modulatorpossessing a 700MV peak power and average power of 1.5kW at repetition frequency of3.5 kHz[A]. The 28th IEEE International Conference on Plasma Science and the 13thIEEE Internatio
  • 10Mankowski J, Dickens J, Kristiansen M. High voltage subnanosecond breakdown[J].IEEE Transactions on Plasma Science,1998, 126(3):874-881.

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强激光与粒子束
2004年 第4期

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