Zhengjun Du;Jin Pan;Deqiang Yang;Xianfeng Liu;Sihao Liu
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引用次数: 0
摘要
提出了一种紧凑的四分之一模式(QM)介质填充谐振器(DR),并提出了一种采用虚拟磁壁(VMWs)的设计方法。讨论了QM DR的工作原理,重点讨论了通过开放孔径(OA)实现VMW,消除了宽高比限制。利用传输线理论分析了自动导航系统的实现。与传统的全模(FM)谐振器相比,所提出的QM DR在尺寸和重量上减少了67%。这种紧凑的设计使QM DR非常适合紧凑型带通滤波器(bpf)的开发,提供增强的带外选择性。为了验证所提出的方法,设计、制作了一个四阶QM DR BPF,并进行了实验测试。实验结果证实了改进的带外选择性,证明了所提设计的有效性。
Quarter-Mode Dielectric-Filled Resonators Based on Virtual Magnetic Walls
A compact quarter-mode (QM) dielectric-filled resonator (DR) is proposed, along with a design methodology employing virtual magnetic walls (VMWs). The operating principle of the QM DR is discussed, focusing on the realization of VMW through an open aperture (OA), which eliminates the aspect ratio limitation. The implementation of VMWs is analyzed using transmission line theory. Compared to conventional full-mode (FM) resonators, the proposed QM DR achieves a 67% reduction in size and weight. This compact design makes the QM DR well-suited for the development of compact bandpass filters (BPFs), offering enhanced out-of-band selectivity. To validate the proposed approach, a fourth-order QM DR BPF was designed, fabricated, and experimentally tested. The experimental results confirm the improved out-of-band selectivity, demonstrating the effectiveness of the proposed design.
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