In this paper, an analytical model for computing the resonant frequency of the gap-coupled ring microstrip patch antennas is developed. The analytical model is based upon the cavity model along with circuit theory. Us...In this paper, an analytical model for computing the resonant frequency of the gap-coupled ring microstrip patch antennas is developed. The analytical model is based upon the cavity model along with circuit theory. Using the field expressions and boundary conditions, the transcendental equation for the structure is developed. The analytically computed results are compared with the simulated results. The simulation work is carried out by using computer simulation technology(CST) microwave studio simulator.The comparison between simulated and computed results shows good agreement.展开更多
This study presents a new, simple method for reducing the back-lobe radiation of a microstrip antenna (MSA) by a partially removed ground plane of the antenna. The effect of the partial ground plane removal in differe...This study presents a new, simple method for reducing the back-lobe radiation of a microstrip antenna (MSA) by a partially removed ground plane of the antenna. The effect of the partial ground plane removal in different configurations on the radiation characteristics of a MSA are investigated numerically. The partial ground plane removal reduces the backlobe radiation of the MSA by suppressing the surface wave diffraction from the edges of the antenna ground plane. For further improving the front-to-back (F/B) ratio of the MSA, a new soft-surface configuration consisting of an array of stand-up split ring resonators (SRRs) are placed on a bare dielectric substrate near the two ground plane edges. Compared to the F/B ratio of a conventional MSA with a full ground plane of the same size, an improved F/B ratio of 9.7 dB has been achieved experimentally for our proposed MSA.展开更多
In this paper, an electromagnetic metamaterial patch antenna is designed and simulated for cognitive radio applications, as cognitive radio communication is anticipated to be a new technology which utilizes all the ba...In this paper, an electromagnetic metamaterial patch antenna is designed and simulated for cognitive radio applications, as cognitive radio communication is anticipated to be a new technology which utilizes all the bands of radio spectrum. This work uses a complementary split ring resonator between the patch and the ground plane for the purpose of size miniaturization. The proposed antenna system is capable of operating in the frequency range of about 2 to 5 GHz. This wide-band design makes it viable for wide spectrum with 80 percentage effective frequency being covered in the designed band. The desired patch antenna has been simulated using Advanced System Design (ADS) simulator. The simulated results are proved to be good in agreement with cognitive radio application.展开更多
提出了一种单点背馈的圆极化正方形环微带贴片天线。该天线的辐射贴片由一个正方形环和对角线上的一个L形枝节构成,介质基板为空气层或由FR4环氧树脂板和空气层组合而成的双层介质。通过调节枝节的宽度及枝节上馈电点位置可实现天线的...提出了一种单点背馈的圆极化正方形环微带贴片天线。该天线的辐射贴片由一个正方形环和对角线上的一个L形枝节构成,介质基板为空气层或由FR4环氧树脂板和空气层组合而成的双层介质。通过调节枝节的宽度及枝节上馈电点位置可实现天线的圆极化辐射。结果表明:介质厚度为0.049λ0(λ0为中心波长)时,天线的阻抗带宽大于6%,圆极化带宽为1.8%,最大增益可达8.7 d B,最小轴比小于0.5 d B。与普通的空气介质贴片天线相比,天线的贴片面积缩小了47%。展开更多
利用微带圆环天线优良的多模特性,设计了一种基于八分之一圆环的微带天线。天线由1个八分之一(45°)的圆环,1条位于天线中心区域的窄缝和1排靠近天线边缘的短路钉组成。这些附加在天线上的缝隙和短路钉起到了激发环形微带天线多模...利用微带圆环天线优良的多模特性,设计了一种基于八分之一圆环的微带天线。天线由1个八分之一(45°)的圆环,1条位于天线中心区域的窄缝和1排靠近天线边缘的短路钉组成。这些附加在天线上的缝隙和短路钉起到了激发环形微带天线多模特性的作用,并进一步减小了天线尺寸。本文研究了这些附加结构对环天线的影响,并经过仿真、优化获得了具有3个频点的微带天线。天线的实测结果表明,该天线可以很好地工作在0.9 GHz,1.8 GHz和2.4 GHz,增益分别达到了4 d Bi,5 d Bi,6 d Bi,工作带宽分别为7 MHz,12 MHz和20 MHz。展开更多
文摘In this paper, an analytical model for computing the resonant frequency of the gap-coupled ring microstrip patch antennas is developed. The analytical model is based upon the cavity model along with circuit theory. Using the field expressions and boundary conditions, the transcendental equation for the structure is developed. The analytically computed results are compared with the simulated results. The simulation work is carried out by using computer simulation technology(CST) microwave studio simulator.The comparison between simulated and computed results shows good agreement.
文摘This study presents a new, simple method for reducing the back-lobe radiation of a microstrip antenna (MSA) by a partially removed ground plane of the antenna. The effect of the partial ground plane removal in different configurations on the radiation characteristics of a MSA are investigated numerically. The partial ground plane removal reduces the backlobe radiation of the MSA by suppressing the surface wave diffraction from the edges of the antenna ground plane. For further improving the front-to-back (F/B) ratio of the MSA, a new soft-surface configuration consisting of an array of stand-up split ring resonators (SRRs) are placed on a bare dielectric substrate near the two ground plane edges. Compared to the F/B ratio of a conventional MSA with a full ground plane of the same size, an improved F/B ratio of 9.7 dB has been achieved experimentally for our proposed MSA.
文摘In this paper, an electromagnetic metamaterial patch antenna is designed and simulated for cognitive radio applications, as cognitive radio communication is anticipated to be a new technology which utilizes all the bands of radio spectrum. This work uses a complementary split ring resonator between the patch and the ground plane for the purpose of size miniaturization. The proposed antenna system is capable of operating in the frequency range of about 2 to 5 GHz. This wide-band design makes it viable for wide spectrum with 80 percentage effective frequency being covered in the designed band. The desired patch antenna has been simulated using Advanced System Design (ADS) simulator. The simulated results are proved to be good in agreement with cognitive radio application.
文摘提出了一种单点背馈的圆极化正方形环微带贴片天线。该天线的辐射贴片由一个正方形环和对角线上的一个L形枝节构成,介质基板为空气层或由FR4环氧树脂板和空气层组合而成的双层介质。通过调节枝节的宽度及枝节上馈电点位置可实现天线的圆极化辐射。结果表明:介质厚度为0.049λ0(λ0为中心波长)时,天线的阻抗带宽大于6%,圆极化带宽为1.8%,最大增益可达8.7 d B,最小轴比小于0.5 d B。与普通的空气介质贴片天线相比,天线的贴片面积缩小了47%。
文摘利用微带圆环天线优良的多模特性,设计了一种基于八分之一圆环的微带天线。天线由1个八分之一(45°)的圆环,1条位于天线中心区域的窄缝和1排靠近天线边缘的短路钉组成。这些附加在天线上的缝隙和短路钉起到了激发环形微带天线多模特性的作用,并进一步减小了天线尺寸。本文研究了这些附加结构对环天线的影响,并经过仿真、优化获得了具有3个频点的微带天线。天线的实测结果表明,该天线可以很好地工作在0.9 GHz,1.8 GHz和2.4 GHz,增益分别达到了4 d Bi,5 d Bi,6 d Bi,工作带宽分别为7 MHz,12 MHz和20 MHz。