宽带矩形槽切改进圆形微带天线

A. Deshmukh, Ankita R. Jain, K. Ray
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引用次数: 5

摘要

宽带微带天线一般采用在低介电常数较厚的衬底上制作的贴片内适当位置切割缝隙的方法来实现。本文提出了一种新型2700扇形微带天线。2700扇形贴片由传统圆形微带天线衍生而来,其附加模式低于等效圆形贴片基模的谐振频率。讨论了扇形贴片的变化,即3000、3200和3400扇形微带天线。通过研究扇形贴片在前两种模式下的表面电流分布,提出了谐振长度/贴片半径的计算公式。用它们计算的频率与模拟结果吻合较好。进一步提出了矩形槽切2700扇形微带天线。提出了一种分析研究狭缝在行业补丁中的作用。矩形槽降低了2700扇形贴片二阶模的谐振频率,并与其基模一起产生宽带响应。在中心频率约为1000 MHz时,得到了近450 MHz的实测和仿真BW。所提出的宽带天线显示出宽侧辐射方向图,在工作带宽上的增益大于6 dBi。
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Broadband rectangular slot cut modified circular microstrip antenna
Broadband microstrip antenna is more commonly realized by cutting the slot at an appropriate position inside the patch which is fabricated on lower dielectric constant thicker substrate. In this paper, a new 2700 sectoral microstrip antenna is proposed. The 2700 sectoral patch, derived from conventional circular microstrip antenna, has an additional mode below the resonance frequency of fundamental mode of the equivalent circular patch. The variations of sectoral patch, namely, 3000, 3200 and 3400 sectoral microstrip antenna are also discussed. By studying the surface current distributions at first two modes of sectoral patch, a formulation in resonant length / patch radius, is proposed. The frequencies calculated using them closely agrees with the simulated results. Further a rectangular slot cut 2700 sectoral microstrip antenna is proposed. An analysis to study the effects of slot in sectoral patch is presented. The rectangular slot reduces the resonance frequency of second order mode of 2700 sectoral patch and along with its fundamental mode, yields broadband response. The measured and simulated BW of nearly 450 MHz at center frequency of around 1000 MHz is obtained. The proposed broadband antenna shows broadside radiation pattern with gain of more than 6 dBi over the operating bandwidth.
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