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一种新型高效率S波段锥形轴向虚阴极振荡器
A Novel High-Efficiency S-Band Conical Axial Vircator
| 作者 | P. Livreri |
| 期刊 | IEEE Access |
| 出版日期 | 2025年1月 |
| 技术分类 | 电动汽车驱动 |
| 技术标签 | SiC器件 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 虚阴极振荡器 S波段 效率提升 锥形波导 无人机对抗 |
语言:
中文摘要
虚阴极振荡器(Vircator)是一种高功率微波真空电子器件,广泛应用于健康、能源、航天、环境及国防领域。本文提出一种用于反制无人机的新型S波段锥形波导轴向vircator结构,旨在提升其转换效率。基于选定的几何与物理参数设计轴向vircator,并在圆柱波导中引入锥形结构,调控电子束动态行为,优化与虚阴极的相互作用。采用CST Studio Suite 2024进行粒子模拟,结果表明,在520 kV电压和20 kA阴极电流激励下,工作频率为2.55 GHz时,平均输出功率达50 MW,效率较传统结构提升约60%。
English Abstract
A VIRtual CAThode oscillatOR (Vircator) is a High-Power Microwave (HPM) vacuum electron device (VED) with applications in the field of health, energy, space, environment, and defense. In this work, a novel approach to increase S-band Vircator efficiency by a conical waveguide for counter Ummanned Aerial Vehicle (UAV) is presented. At first, starting from the geometrical and physical parameter values chosen, an axial vircator is designed. Then, to enhance its efficiency, a conical structure is added into the cylindric waveguide, altering the electron beam dynamic and optimizing the interaction with the virtual cathode. The Particle-in-Cell simulation carried out by CST Studio suite 2024, shows an average output power of 50 MW and an efficiency up to 60% than the basic vircator configuration ones, with an applied voltage of 520 kV and a cathode current of 20 kA at 2.55 GHz.
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SunView 深度解读
该文章研究的高功率微波虚阴极振荡器属于特种真空电子器件,其核心技术方向(高功率脉冲、电磁能量转换)与阳光电源主营的光伏逆变器、储能变流器等电力电子产品存在本质差异。虚阴极振荡器主要应用于国防电磁对抗领域,而阳光电源聚焦于新能源发电、储能及电动汽车充电等民用市场。尽管文章标注为SiC器件相关,但实际内容未涉及碳化硅功率半导体技术。该研究的高频电磁场调控思路对阳光电源产品线无直接应用价值,建议重新评估文章分类的准确性。