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摘要: 从电路方程出发较详细地分析了间接馈电的磁通量压缩发生器的工作原理。分析表明:在设计间接馈电的磁通量压缩发生器时,只有馈电回路的电感L1和电容C0满足(L1C0)1/2T时,MFCG才有效运行;耦合形式的MFCG能使初始磁通量放大;馈电回路电容大小的选择将影响MFCG输出的电流脉冲形状。这些结论对于设计磁通量压缩发生器具有指导意义。
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关键词:
- 磁通量压缩发生器(MFCG) /
- 电感 /
- 电容
Abstract: In this paper, an indirectly charging magnetic flux compression generator (MFCG) is theoretically investigated from circuit equation. It shows that the inductance L1 and capacitance C0 of charging circuit must satisfy the relation (L1C0)1/2T when an indirectly charging MFCG is designed; coupling MFCG can amplify the initial magnetic flux; the wave shape of current pulse of MFCG is influenced by the capacitance of charging circuit. All this result is valuable to the design of MFCG.-
Key words:
- magnetic flux compression generator (MFCG) /
- inductance /
- capacitance
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Pavlovskii A I, Lyudaev R Z, et al. Investigation of DISC Magnetocumulative Generators. In: Titov V M, Shretsov G A, eds. Proceeding of the Fifth International Conference on Megagauss Magnetic Field Generation and Related Topics. New York: Nova Science Publishers, INC, 1989: 331-336. Gong Xingen, et al. A Compact Magnetic Flux Compression Generator Driven by Explosive. In: Fowler C M, Caired R S, Erickson D J, eds. Proceeding of the Fourth International Conference on Megagauss Magnetic Field Generation and Related Topics. New York: Plenum Press, 1987: 417. Heinz Knoepfel. Plused High Magnetic Fields. Amsterdan Londan: North-Holland Publishing Company, 1970: 177-231. Fortov V E, Didenko A N, Mintsev V B, et al. Generation of High Power Electron Beam and Microwave Radiation with the Aid of High Explosive. (Private communication), 1993.
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