四波段开槽贴片天线的实现

2022 14th International Conference on Computational Intelligence and Communication Networks (CICN) Pub Date : 2022-12-04 DOI:10.1109/CICN56167.2022.10008260

R. Parashar, D. Yadav, A. Saharia, M. Tiwari, G. Singh

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引用次数: 0

摘要

设计了一种四频带开槽结构，详细分析了其在维度$\mathbf{29}上的紧凑性。\mathbf{5}\ \mathbf{mm} \times \mathbf{22}\ \mathbf{mm} \times \mathbf{1}。该天线工作在四个谐振微波频段，覆盖WiMAX (3.34 - 4.42 GHz)、上C波段无线电通信(7.20-7.43 GHz)、下X波段业余无线电应用(8.91-10.72 GHz)和中$\mathbf{K}_{\mathbf{U}}$波段分子旋转光谱(14.2514.94 GHz)无线应用。在FR-4介电衬底材料上实现开槽的八边形辐射片和梯形局部接地段。天线通过适当的回波损耗、辐射方向图、增益和辐射效率模拟结果实现了四频带配置。仿真结果在实现的谐振模式下是稳定的。

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Implementation of four-band slotted patch Antenna

A tetra band slotted structure is designed detail analysis with compactness in dimensions $\mathbf{29}.\mathbf{5}\ \mathbf{mm} \times \mathbf{22}\ \mathbf{mm} \times \mathbf{1}.\mathbf{6}$ mm. Proposed antenna is operating at four resonant microwave frequency bands to cover the WiMAX (3.34 - 4.42 GHz), Upper C band radio telecommunication (7.20-7.43 GHz), Lower X band amateur radio application (8.91-10.72 GHz) and middle $\mathbf{K}_{\mathbf{U}}$ band molecular rotational spectroscopy (14.2514.94 GHz) wireless applications. The slotted octagonal shape radiating patch and trapezoidal shape partial ground section is implemented on FR-4 dielectric substrate material. Antenna achieve the tetra band configuration with appropriate simulated results of return loss, radiation patterns, gain and radiation efficiency. Simulated results are stable at achieved resonating modes.

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来源期刊

2022 14th International Conference on Computational Intelligence and Communication Networks (CICN)

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