一种非接触式高功率宽带同轴旋转关节

Design of a non-contact high-power broadband coaxial rotary joint

  • 摘要: 旋转关节是高功率机械扫描天线系统中馈线链路的关键部件,用于实现天线旋转过程中射频能量的高效稳定传输。本文结合阶梯波导多级阻抗变换和新颖的扼流结构,提出了一种非接触式高功率宽带同轴旋转关节的设计方案,实现了矩TE10-同轴TEM-矩TE10模式的高效转换。通过全波电磁仿真软件对该结构进行建模与优化,仿真结果表明,在1.68~2.58 GHz频带范围内,该器件的能量传输效率大于99%,反射小于−20 dB,功率可达GW级别,中心频点2 GHz下的相对带宽可达42%,在宽带高功率天馈领域具有良好的工程应用前景。

     

    Abstract:
    Background Rotary joints serve as critical feeder-link components in high-power mechanical beam-scanning antenna systems, ensuring efficient and stable radio-frequency energy transmission during antenna rotation. As high-power microwave technology steadily advances toward wideband operation, miniaturization, high efficiency, and high reliability, microwave rotary joints are required to meet correspondingly stringent demands.
    Purpose Compared with circular-waveguide rotary joints, coaxial rotary joints feature a more compact structure and offer better system adaptability in low-frequency bands. However, conventional coaxial rotary joints typically suffer from narrow bandwidth, insufficient power-handling capacity, and wear-prone contact-type structures. To satisfy the evolving requirements of high-power microwave systems, a broadband coaxial rotary joint with high power-handling capacity is needed.
    Methods This paper proposes a contactless high-power broadband coaxial rotary joint design that combines a stepped-waveguide multi-section impedance transformer with a novel choke structure, thereby achieving broadband and highly efficient rectangular TE10-coaxial TEM-rectangular TE10 mode conversion.
    Results The proposed structure was modeled and optimized using full-wave electromagnetic simulation software. Simulation results show that over the 1.68-2.58 GHz frequency range, the device achieves a transmission efficiency greater than 99%, a return loss better than 20 dB, and a power-handling capacity on the gigawatt order, corresponding to a fractional bandwidth of up to 42% at a center frequency of 2 GHz.
    Conclusions The design collectively realizes high power-handling capacity, wide bandwidth, high efficiency, and contactless rotation, offering a high-performance rotary joint solution with promising engineering application prospects for high-power mechanical beam-scanning antenna systems.

     

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