Novel Design of Printed Antenna Integrated with Bandpass Filter for C-band Applications

2019 URSI Asia-Pacific Radio Science Conference (AP-RASC) Pub Date : 2019-03-01 DOI:10.23919/URSIAP-RASC.2019.8738386

P. Shome, T. Khan

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Abstract

A novel configuration of filtering antenna for C-band applications is presented in this paper. An elliptical radiator based UWB monopole antenna is first investigated and then integrated to a wideband bandpass filter to achieve high frequency selectivity as well as compactness. The bandpass filter is constituted by stepped impedance stub loaded resonator for C-band applications. Aperture backed inter-digital coupled lines are used to feed the multiple-mode resonator of proposed bandpass filter. The proposed filtenna leaves out the necessity of cascading any additional $50 \Omega$ microstrip elements in between the developed antenna and filter, thus making the system smaller. The incorporation of planar antenna and the filter is carried out using FR4 substrate board with permittivity 4.4 and thickness 1.6 mm. The overall dimension of the wideband filtenna is obtained as $59 \times 42$ mm $^{2}$. Performance analysis of the UWB antenna, bandpass filter and their integrated structure has been carried out systematically in this paper. An in-depth agreement between simulated and measured results is discovered for the proposed configurations.

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c波段集成带通滤波器的印刷天线新设计

本文提出了一种新的c波段滤波天线结构。首先研究了一种基于椭圆辐射体的超宽带单极天线，然后将其集成到宽带带通滤波器中，以实现高频率选择性和紧凑性。该带通滤波器由阶跃阻抗短段负载谐振器构成，适用于c波段。采用孔径背衬的数字间耦合线馈送所提出的带通滤波器的多模谐振器。所提出的滤波器不需要在所开发的天线和滤波器之间级联任何额外的$50 \Omega$微带元件，从而使系统更小。采用介电常数4.4、厚度1.6 mm的FR4基板实现平面天线与滤波器的结合。宽带滤波器的整体尺寸为$59 \乘以42$ mm $^{2}$。本文对超宽带天线、带通滤波器及其集成结构进行了系统的性能分析。对于所提出的结构，模拟结果和测量结果之间有很好的一致性。

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2019 URSI Asia-Pacific Radio Science Conference (AP-RASC)

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