Design of wideband antenna using interdigital capacitance

K. Suriyan, Kanagaraj Venusamy, Indira Priya Ponnuvel, S. Zakir, Manjunathan Alagarsamy
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引用次数: 0

Abstract

A pair of wideband antenna serve as an impedance transformer for the proposed antenna, which consists of a dipole with periodic capacitive loading. Periodic capacitive loading is achieved at each sector by adding interlaced coupling lines. In order to create a broad impedance bandwidth, the periodic interlaced coupling lines split each arm of the dipole into five portions. Currents are dispersed on the various sections at different frequencies. The suggested antenna is an excellent choice for radar applications since it has a high gain and a low amount of cross polarisation. With the aid of innovative design methods including codirectional inclusion of interdigital capacitance, this research study proposes an interdigital capacitance for wideband (WB) applications interdigital capacitor (IDC). The suggested IDC antenna, which works between 4.70 and 11 GHz, has dimensions of 6.36x6.35x1.6 mm3. This page explores in-depth data on gain over frequency, far field patterns, and surface current distribution on antennas. The suggested antenna's feasibility is shown by simulation data that demonstrates excellent equality on return loss.
基于数字间电容的宽带天线设计
该天线采用一对宽带天线作为阻抗变换器,由偶极子组成,具有周期性电容性负载。通过增加交错耦合线,在每个扇区实现周期性电容性负载。为了产生宽的阻抗带宽,周期性交错耦合线将偶极子的每个臂分成五个部分。电流以不同的频率分散在各个部分。建议的天线是雷达应用的绝佳选择,因为它具有高增益和低交叉极化量。本研究借由数位间电容的同向包含等创新设计方法,提出一种宽频应用的数位间电容(IDC)。建议的IDC天线,工作频率在4.70到11 GHz之间,尺寸为6.36x6.35x1.6 mm3。本页深入探讨频率增益、远场模式和天线表面电流分布的数据。仿真结果表明,该天线具有良好的回波损耗相等性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
1.50
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0.00%
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