期刊文献+

指数型径向阻抗变换器功率传输效率的优化设计 被引量:2

Optimization design of power efficiency of exponential impedance transformer
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摘要 利用解析方法和电路模拟方法研究了阻抗变换器功率传输效率的优化设计。电路计算中,采用了脉冲上升沿等效的正半周正弦波作为输入波形的假设,并忽略了水介质能量损失的影响。首先对比了线性、饱和型变化和陡变型变化3种典型阻抗的功率和能量传输效率,分析讨论了影响指数型阻抗变换器功率传输效率的关键影响因素,并得到了功率传输效率最大化的中间参数和符合系数的参数范围。讨论了实际设计中应注意的绝缘安全系数的结构设计、杂散参数对阻抗计算的影响、水介质能量损失等问题。 The paper investigates the optimization design of power efficiency of exponential impedance transformer with ana- lytic method and numerical method. In numerical calculation, a sine wave voltage with hypothesis of rising edge equivalence is re garded as the forward-going voltage at input of transformer, and its dominant angular frequency is determined by typical rise-time of actual voltage waveforms. At the same time, dissipative loss in water dielectric is neglected. The numerical results of three typ ical modes of impedance transformation, viz. linear mode, saturation mode and steep mode, are compared. Pivotal factors which affect the power efficiency of exponential impedance transformer are discussed, and a certain extent quantitative range of interme- diate variables and accordance coefficients are obtained. Finally, the paper discusses some important issues in actual design, such as insulation safety factor in structure design, effects of coupling capacitance on impedance calculation, and dissipative loss in water dielectric.
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2011年第8期2252-2256,共5页 High Power Laser and Particle Beams
基金 国家自然科学基金项目(50937004) 中国工程物理研究院科学技术发展基金项目(2008A0402015)
关键词 指数型阻抗变换器 上升沿等效 功率传输效率 exponential impedance transformer rising edge equivalence power efficiency
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参考文献8

  • 1Martin T H, Guenther A H, Kristiansen M. J. C. Martin on pulsed power[M]. New York: Plenum Press, 1996.
  • 2Lewis I A D, Wells F H, Millimicrosecond Pulse Techniques [M]. New York:Pergamon Press, 1959.
  • 3Pai S T, Zhang Q. Introduction to high power pulse technology[M]. New York: World Scientific Publishing, 1995.
  • 4Stygar W A, Cuneo M E, Headley D I, et al. Architecture of petawatt-class Z-pinch accelerators[J]. Physical Review Special Topics Accel erators and Beams, 2007,10 : 030401.
  • 5关永超,王勐,丰树平,曹文斌.高功率低阻抗三平板传输线的设计[J].强激光与粒子束,2010,22(3):519-523. 被引量:7
  • 6Cohn S B. Problems in strip transmission lines[J]. IRE Trans on Microw Theory Tech,1995, 3: 119.
  • 7周良骥,邓建军,陈林,戴英敏,王勐,谢卫平,丰树平,杨礼兵.1MA直线型变压器驱动源模块设计[J].强激光与粒子束,2010,22(3):465-468. 被引量:20
  • 8Kim A A, Bastrikov A N, Kovalchuk B M, et al. 100 OW fast LTD stage[C]//10th Symposium on High Current Electronics. 2004: 141- 144.

二级参考文献14

  • 1黄子平,王文斗.非线性含磁芯线圈的PSpice模拟[J].强激光与粒子束,2004,16(8):1063-1066. 被引量:15
  • 2Bastrikov A N, Kim A A, Kovalchuk B M, et al. Fast primary energy storage based on linear transformer scheme[C]//11th International Pulsed Power Conference. 1997:489 -497.
  • 3Kim A A, Kovalchuk B M, Bastrikov A N, et al. 100 ns current rise time LTD stage[C]//13th International Pulsed Power Conference. 2001:1491-1494.
  • 4Kim A A, Bastrikov A N, Kovalchuk B M, et al. 1 MV ultra-fast LTD generator[C]//14th International Pulsed Power Conference. 2003 853-854.
  • 5Kim A A, Bastrikov A N, Kovalchuk B M, et al. 100 GW fast LTD stage[C].//10th Symposium on High Current Electronics. 2004:141- 144.
  • 6Pai S T, Zhang Q. Introduction to high power pulse technology[M]. Singapore: World Scientific Publishing, 1995.
  • 7Cohn S B. Problems in strip transmission lines[J]. IRE Trans on Microwave Theory Tech, 1995,3:119.
  • 8Johnson W A, Coats R S, Jorgenson R E, et al. Electromagnetic analysis and modeling of the coax-to triplate transition for the pulse-compression section of the ZR accelerator[C]//Digest of 14th IEEE International Pulsed Power Conference. 2003:630-633.
  • 9Martin T H, Guenther A H, Kristiansen M. J. C. Martin on pulsed power[M]. New York:Plenum Press,1996.
  • 10夏明鹤,孟维涛,丰树平,王玉娟,卫兵,计策,傅贞,田青,任靖,卿艳玲,谢卫平,李洪涛,邓建军.同轴-三平板型水介质脉冲输出开关实验研究[J].强激光与粒子束,2007,19(8):1404-1408. 被引量:9

共引文献24

同被引文献17

  • 1Deeney C, Douglas M R, Spielman R B, et al. Enhancement of X-ray power from a Z pinch using nested-wire Arrays[J]. Physical Review Letters, 1998, 81(22): 4883-4886.
  • 2Stygar W A, Cuneo M E, Headley D I, et al. Architecture of pata- watt-class z-pinch accelerators[J]. Physical Review ST Accelerators and Beams, 2007, 10(3): 030401.
  • 3Welch D R, Genoni T C, Rose D V, et al. Optimized transmission-line impedance transformer for patawatt-class pulsed-power accelerators[J]. Physical Review ST Accelerators and Beams, 2008, 11 (3): 030401.
  • 4Hu y, Qiu A, Huang T, et al. Simulation analysis of transmission-line impedance transformers with the Gaussian, exponential, and linear impedance Profiles for pulsed-power accelerator[J]. IEEE Transactions on Plasma Science, 2011, 39(11): 3227-3232.
  • 5Zhang R, Mao C, Huang K, et al. Comparison of nonuniform trans- mission lines with gaussian and exponential impedance profiles for Z-pinch[J]. IEEE Transactions on Plasma Science, 2012, 40(12): 3395-3398.
  • 6Weseloh W N. TLCODE - a transmission lines code for pulsed power design[C]//Proceedings of 7th IEEE International Pulsed Power Con- ference. Monterey, USA: IEEE, 1989: 989-992.
  • 7Lewis I A D, Wells F H. Millimicrosecond pulse techniques[M]. Lon- don, UK: Pergamon Press, 1956.
  • 8Computer Simulation Technology AG CST studio suite[EB/OL]. [2015-01-05]. https://www.cst.com/Products/CSTS2.
  • 9杨保初,刘晓波,戴玉松.高电压技术[M].重庆:重庆大学出版社,2001;102.
  • 10Pozar D M. Microwave engineer[M]. New York, USA: John Wiley & Sons, Ine., 2005.

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