PFN-Marx发生器内电磁耦合分析研究OA
Analysis and research on electromagnetic coupling within PFN-Marx generator
PFN-Marx发生器准方波输出特性与装置的紧凑性是一对矛盾.随着对装置紧凑性的更高要求,发生器叠加过程中 PFN波传输产生的级间电磁耦合愈发明显,其对 PFN的脉冲调制特性有显著的影响,进一步影响发生器的准方波输出特性.基于此问题,本文开展 PFN-Marx发生器叠加过程中 PFN的电磁耦合分析.首先,通过理论推导,分析波传输过程中 PFN级内和级间的电磁耦合现象,并得出其计算公式;然后,建立典型的PFN-Marx发生器的 3D模型进行场路协同仿真;最后,分别搭建单级、多级发生器进行实验验证.通过分析对比三种结果,提高对 PFN-Marx发生器波传输过程中电磁耦合的认识,从而在设计中规避部分电磁耦合,提升 PFN-Marx发生器方波输出能力.本文可以为PFN-Marx发生器的准方波输出和紧凑化提供技术参考.
[Background]The quasi-square wave output characteristic of a PFN-Marx generator is a pair of contradictions with the compactness of the setup.With the higher requirement of the compactness of the setup,the inter stage electromagnetic coupling of PFN wave transmission becomes increasingly significant,which has a significant effect on the pulse modulation characteristics of the PFN and further affects the quasi-square wave output characteristics of the generator.[Purpose]It is necessary to investigate the electromagnetic coupling during the wave transmission process of the PFN-Marx generator and derive the corresponding calculation formulas.This allows for the avoidance of specific electromagnetic couplings during the design phase,ensuring both the quality of the output waveform and the compactness of the device.[Methods]This paper presents an electromagnetic coupling analysis of the PFN during the discharging process of PFN Marx generator.Firstly,the electromagnetic coupling phenomena in the PFN and between the PFNs are analyzed by theoretical derivation,and the calculation formulas are obtained.Then,the 3D model of the typical PFN Marx generator is built up for field circuit simulation.Finally,a single-stage generator and a multi-stage generator are built for experimental verification.[Results]The experimental results verify the theoretical analysis and simulation results,showing good consistency.The preliminary design optimization directions for the PFN-Marx generator can be outlined as follows:1.Maintain appropriate inter-wire spacing;2.Increase design redundancy to compensate for electromagnetic coupling;3.Keep the transmission lines neat and regular to minimize unnecessary electromagnetic coupling.[Conclusions]Based on the above results,the understanding of electromagnetic coupling in the wave transmission of PFN-Marx generator can be improved,so as to avoid partial electromagnetic coupling in design and improve the square wave output ability of PFN-Marx generator.This paper can provide technical reference for the development of quasi-square wave technology and compact technology of the PFN-Marx generator.
刘世飞;张建德;张自成;邱旭东;高明珠;李锐;周业凯
西北核技术研究所,西安 710024国防科技大学 前沿交叉学科学院,长沙 410073国防科技大学 前沿交叉学科学院,长沙 410073西北核技术研究所,西安 710024西北核技术研究所,西安 710024西北核技术研究所,西安 710024复旦大学,上海 200433
信息技术与安全科学
波传输过程电磁耦合场路协同仿真脉冲形成网络PFN-Marx发生器
wave transmissionelectromagnetic couplingfield-circuit simulationpulse forming networkPFN-Marx generator
《强激光与粒子束》 2026 (4)
115-121,7
高功率微波驱动源技术研究创新团队(ZCXTD202303)
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