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传输线脉冲变压器的频率响应 被引量:2

Frequency response of transmission line pulse transformer
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摘要 采用等效方法简化了多级传输线脉冲变压器(TLT)电路,建立了简单的TLT频率响应分析电路。在此基础上,由传输线两端口网络模型推导得到了TLT的频率响应计算公式,并计算了TLT的频率响应曲线。依据简化后的电路,对TLT的频率响应进行了数值模拟分析,数值分析与理论计算结果一致性很好。两种分析所得结果均表明,次级线电感和杂散电容取值适当时,TLT具有良好的频率响应能力。当次级线电感为6 mH和杂散电容为8 pF时,其频率响应范围可以达到30 kHz^1 GHz。 Using a referral method, a multistage transmission line pulse transformer(TLT) was simplified, and a simple circuit of the TLT frequency response was also established. On this basis, a frequency response equation of the TLT was deduced from a two-port network model of the transmission line. According to the equation, TLT frequency response curves were calculated. Numerical simulations of the frequency response were conducted in terms of the simplified circuit, and the result of the numerical analysis agreed with that of theoretical calculations well. Both of these two results indicated that the TLT has an outstanding performance in frequency response if the secondary line inductance and stray capacitance are suitable. Particularly, the range of frequency response can be 30 kHz-1 GHz when the secondary line inductance is 6 mH and the stray capacitance is 8 pF.
作者 王松松 杨汉武 舒挺
机构地区 国防科学技术大学光电科学与工程学院
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2009年第9期1431-1434,共4页 High Power Laser and Particle Beams
基金 国家高技术发展计划项目
关键词 传输线脉冲变压器 次级线电感 杂散电容 频率响应 transmission line transformer secondary line inductance stray capacitance frequency response
分类号 TL503 [核科学技术—核技术及应用]
  • 相关文献

参考文献10

  • 1Smith P W, Transient electronics[M]. Chichester: Wiley, 2002.
  • 2Winningstrad C N. Nanosecond pulse transformers[J]. IRE Trans on Nuclear Science, 1959, 11 (3) : 26-31.
  • 3Smith P W, Rossi J O. The frequency response of transmission line (cable) transformers[C]//Proe of the IEEE Pulsed Power Conference. 1997, 3:610- 615.
  • 4Yan Keping. Corona plasma generation[D]. Netherlands: Eindhoven University of Technology, 2001:47-88.
  • 5Yan Keping, van Heesch E J M, Pemen A J M, et aI. A high voltage pulse generator for corona plasma generation[J]. IEEE Trans on Industry Applications, 2002, 38(3) :866- 872.
  • 6Jain K K, Smith P W. Fast rise-time pulse transformers built from rotated stacked 1 :1 transformers[J]. IEEE Trans on Plasma Science, 2006, 34(5):1853-1857.
  • 7Pecastaing L, Reess T, Paillol J, et al. Optimization of the performance of a transmission line transformer based on the use of ferrite beads [C]//Proe of 11th Int Syrup on High Voltage Engineering. 1999, 11:386 389.
  • 8Wilson C R, Eriekson G A, Smith P W. Compact, repetitive, pulsed power generators Based on transmission line transformers[C]//Proc of the IEEE Pulsed Power Conference. 1989, 17:108-112.
  • 9Granean P N, Rossi J O, Smith P W. The operation and modeling of transmission line transformers using a referral method[J]. Rev Sol Instrum, 1999, 70(7) :3180-3185.
  • 10王松松,杨汉武.传输线脉冲变压器次级线电感的优化设计[J].强激光与粒子束,2009,21(3):468-472. 被引量:4

二级参考文献9

  • 1Pal S T, Zhang Q. Introduction to high power pulse technology[M]. Singapore: World Scientific, 1995.
  • 2Wilson C R, Erickson G A, Smith P W. Compact, repetitive, pulsed power generators based on transmission line transformers[C]//Proc of the IEEE Pulsed Power Conference. 1989, 17:108-112.
  • 3Yan K P, van Heesch E J M, Pemen A J M, et al. A high-voltage pulse generator for corona plasma generation[J]. IEEE Trans on Industry Applications, 2002, 38(,3) : 866-872.
  • 4Jain K K, Smith P W, Fast-rise-time pulse transformers built from rotated stacked 1:1 transformers[J]. IEEE Trans on Plasma Science, 2006, 34(5) :1853-1857.
  • 5Yan K P. Corona plasma generation[D]. The Netherlands:Eindhoven University of Technology, 2001 :47-88.
  • 6Granean P N, Rossi J O, Smith P W, et al. A high voltage transmission line transformer with very low droop[J]. Rev Sci Instrum, 1996, 67(7) : 2630-2635.
  • 7Granean P N, Rossi J O, Smith P W. The operation and modeling of transmission line transformers using a referral method[J]. Rev Sci Instrum, 1999, 70(7) :3180-3185.
  • 8Pecastaing L, Reess T, Paillol J, et al. Optimization of the performance of a transmission line transformer based on the use of ferrite beads [C]//Proc 11th Int Syrup High Voltage Engineering. 1999, 11 : 386-389.
  • 9Smith P W. Transient electronics[M]. London; Wiley, 2002 : 186-194.

共引文献3

同被引文献16

  • 1Smith P W. Transient electronics[M]. Chichester: Wiley, 2002:169-170.
  • 2Smith P W, Rossi J O. The frequency response of transmission line (cable) transformers[C]//Proc of the IEEE Pulsed Power Conference. 1997, 3:610-615.
  • 3Yan K P, van Heesch E J M, Pemen A J M, et al. A high-voltage pulse generator for corona plasma generation[J]. IEEE Trans on Industry Applications, 2002, 38(3) :866-872.
  • 4Jain K K, Smith P W. Fast rise-time pulse transformers built from rotated stacked 1 : 1 transformers[J]. IEEE Trans on Plasma Science,2006, 34(5):1853-1857.
  • 5Benford J, Swegle J A, Schamiloglu E. High-power microwaves[M]. 2nd ed. New York: Taylor and Francis Group, 2007: 22-30.
  • 6Liu J L, Yin Y, Ge B, et al. An electron-beam accelerator based on spiral water PFL[J]. Laser Part Beams, 2007, 25(4):593-599.
  • 7Sack M, Sigler J, Eing C, et al. Operation of an electroporation device for grape mash[J]. IEEE Trans on Plasma Sci, 2010, 38(8): 1928- 1934.
  • 8Beebe S J, Fox P M, Rec L J, et al. Nanosecond pulsed electric (ns PEF) effects on cells and tissues: apoptosis induction and tumor growth inhibition[J]. IEEE Transon Plasma Sci, 2002, 30(2): 286-292.
  • 9Akiyama H. Stream discharges in liquids and their applications[J]. IEEE Trans on Dielectr Electr Insul, 2000, 7(5): 646-653.
  • 10Zhang Qingmeng, Wang Lei, Luo J un, et al. Improved energy storage density in barium strontium titanate by addition of BaO-SiO2-B2O3 glass[J]. J Am Ceram Soc, 2009, 92(8): 1871-1873.

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二级引证文献5

强激光与粒子束
2009年 第9期

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