Design of Stubs in a Comb-Line Leaky-Wave Antenna for Minimizing Gain Variation at Broadside

IF 2.1 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

IEEE Canadian Journal of Electrical and Computer Engineering Pub Date : 2024-10-31 DOI:10.1109/ICJECE.2024.3475878

Ayaz Ahmad;Shanu Kumar;Jayanta Mukherjee

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Abstract

In this work, the effect of a two-section stub for minimizing gain variation near broadside frequency in a comb-line leaky-wave antenna (LWA) is investigated. Mathematical design conditions for stubs are derived based on the matched input impedance requirement of the unit cell. Based on the derived conditions, two different stubs (Case-I and Case-II) are designed and placed in the middle of the host transmission line (50 Ω delay line) to make comb-line unit cells (UC#1, and UC#2). The open stopband (OSB) suppression is investigated by analyzing the input impedance and the leakage constant of the unit cells. Next, the variation in the gain of the LWAs (LWA#1, and LWA#2) with the proposed stubs is compared with a comb-line LWA with the conventional radiating stub (CRS). The gain variation in LWA#1 is only 0.7 dB as compared to the 2.5 dB gain variation for LWA using CRSs. Moreover, the gain is improved by 2 dB near the broadside for LWA#2 as compared to LWA using CRS. In the entire analysis, the broadside frequency is chosen near 10 GHz.

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最小宽频增益变化的梳线漏波天线短节设计

在这项工作中，研究了两段短段在梳线漏波天线（LWA）中减小宽频附近增益变化的作用。根据单元格的输入阻抗匹配要求，导出了短管的数学设计条件。根据导出的条件，设计了两个不同的存根（Case-I和Case-II），并将其放置在主机传输线（50 Ω延延线）的中间，形成梳线单元单元（uc# 1和uc# 2）。通过分析单元电池的输入阻抗和泄漏常数，研究了开阻带（OSB）的抑制。接下来，与具有传统辐射存根（CRS）的梳线LWA比较了具有所提出存根的LWA （lwa# 1和lwa# 2）的增益变化。与使用CRSs的LWA的2.5 dB增益变化相比，LWA#1的增益变化仅为0.7 dB。此外，与使用CRS的LWA相比，LWA#2的增益在宽边附近提高了2db。在整个分析中，宽带频率选择在10ghz附近。

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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来源期刊

IEEE Canadian Journal of Electrical and Computer Engineering

CiteScore

3.70

自引率

0.00%

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