共查询到20条相似文献,搜索用时 36 毫秒
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本文首先给出电流源激励下双层手征介质中的并矢格林函数表达式,应用鞍点积分法,导出了有金属板衬底的双层手征介质中电偶极天线的辐射场表达式,分析了有、无空气隙时手征导纳对电偶极天线的方向图,θ=0°方向的最大强和谐振频率的影响程度,结果表明,通过改变手征导纳参数,可以有效地调节电偶极天线的辐射特性。 相似文献
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《电子技术与软件工程》2017,(12)
本文研究一种电磁带隙结构微带天线。分析电磁带隙结构的带隙特性,设计一个电磁带隙结构加载的微带天线,并进行仿真实验。仿真结果表明,将EBG结构置于微带天线阵的底部作为微带天线阵列的金属反射板,有效地抑制天线表面波的传播,降低微带贴片天线后瓣,提高天线增益。 相似文献
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介绍了一种由折叠臂偶极天线和并联介质块组成的小型化超宽带天线。分析了天线的辐射机理,应用时域有限差分(FDTD)方法和完全匹配层(PML)技术对天线的辐射特性进行了研究。计算结果表明:驻波系数小于3时,天线的阻抗带宽达到2.4GHz(3~5.4GHz),并且辐射脉冲保形性较好,可用于无载波超宽带无线数据通信系统。 相似文献
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An electromagnetic bandgap resonator antenna 总被引:10,自引:0,他引:10
Cheype C. Serier C. Thevenot M. Monediere T. Reineix A. Jecko B. 《Antennas and Propagation, IEEE Transactions on》2002,50(9):1285-1290
This paper introduces a new explanation of the electromagnetic bandgap (EBG) material properties using the study of the EBG structures in the frequency domain and reciprocal space. Once the behavior of such a material is understood, the properties of the EBG are used in order to make an EBG antenna. The antenna is realized with dielectric EBG rods. Its directivity is increased compared to a simple patch antenna. Such a device allows us to obtain a high gain with a very thin structure. 相似文献
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Uniplanar compact electromagnetic bandgap (UC-EBG) substrate has been proven to be an effective measure to reduce surface wave excitation in printed antenna geometries. This paper investigates the performance of a microstrip antenna phased array embedded in an UC-EBG substrate. The results show a reduction in mutual coupling between elements and provide a possible solution to the "blind spots" problem in phased array applications with printed elements. A novel and efficient UC-EBG array configuration is proposed. A probe fed patch antenna phased array of 7/spl times/5 elements on a high dielectric constant substrate was designed, built and tested. Simulation and measurement results show improvement in the active return loss and active pattern of the array center element. The tradeoffs used to obtain optimum performance are discussed. 相似文献
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分析了求解对称振子输入阻抗的计算方法,包括近似方法(坡印廷矢量法、等效传输线法和感应电动势法)、解析方法(海伦积分法)和数值方法(矩量法),计算了不等长平行对称振子的互阻抗. 着重对等效传输线法和海伦积分法进行了分析和研究,对等效传输线法存在的不足进行了修正,推导了海伦积分法计算输入阻抗的各个参数,并将修正后的等效传输线法计算结果与海伦积分法和矩量法的计算结果进行了比较. 结果表明,修正后的计算方法适用于一般对称振子. 相似文献
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在UWB通信中,利用赫兹磁偶极子天线的微分特性,由输入方波的上升沿产生窄脉冲。对不同尺寸的赫兹磁偶极子天线的发射信号进行了测试及分析,由测试结果表明,该天线作为发射天线具有良好的微分特性,实现了宽带辐射。天线的尺寸对发射脉冲的宽度和幅度有较大的影响,天线的尺寸越大,其辐射的脉冲信号幅度越高,但其脉冲宽度也越宽。 相似文献
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This paper presents the analysis of the impedance of a short dipole antenna in a cold plasma using a quasi-static approach. Two radically different current distributions on the antenna are considered and their influences on the antenna impedance are studied. These distributions include a one-dimensional (1-D) triangular distribution and a three-dimensional (3-D) exponential current distribution. Balmain (1964) analytically solved the first problem. Staras (1964) proposed the second one. In this paper, we offer an analytical solution for the second one as proposed by Staras. We compare both distributions and find that impedances resulting from them are remarkably close. We conclude that the impedance of a short antenna, as derived using the quasi-static approximation, is insensitive to the choice of current distribution. Therefore, any of these two theories can be used when analyzing data from an impedance probe immersed in a space plasma 相似文献
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提出了通过优化馈管间距、馈电点位置和馈管长度三个特征参数,实现对数周期天线驻波比最佳化的方法,并对四个不同频段的天线进行了理论仿真分析和实测验证.实验结果表明:当馈管间距为馈管边长的1.45倍,馈电点位置为最短振子长度与天线间隔常数乘积的2倍,馈管端部到最短振子的长度为馈电点到最短振子长度的1.15倍时,天线的驻波比达到最优状态.这些理论分析与实验结果为对数周期天线的工程应用提供了重要依据,也为最优化设计提供了一种更有效的方法. 相似文献
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根据卫星探测的相关理论,建立了卫星光学探测的仿真模型,并利用MATLAB进行仿真,研究了任意给定的卫星轨道、卫星天线参数和地面探测站位置参数下,探测站观测到的卫星天线的星等值。引入了圆锥形卫星天线对太阳光的反射公式和星等值的概念,给出了卫星处于地球阴影区和探测站探测盲区的判断方法。通过对模拟结果进行分析,可以得出任意一天、任意时刻卫星天线对固定探测站的星等值,并能给出圆锥形卫星天线对地面固定探测站的星等值随时间的变化规律。结果表明对低地球轨道卫星,地面观测站的同一光学观测设备在一天时间内可观测时间是很短的,对于圆锥形卫星天线,可观测时间更短。 相似文献
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A. Ameelia Roseline K. Malathi 《AEUE-International Journal of Electronics and Communications》2012,66(12):963-968
This paper presents a compact dual-band slot antenna for 1.8/2.4 GHz WLAN applications using electromagnetic bandgap (EBG) structures. The slotted rectangular radiating element is surrounded by a spiral-like EBG. The antenna size is very compact (60 mm × 60 mm × 3.27 mm), and can be integrated easily with other RF front-end circuits. The working frequency of the patch antenna falls inside the EBG which will lead to the suppression of the surface waves. It is demonstrated that the proposed antenna can completely cover the required bandwidths of IEEE 802.11b/g and IEEE 802.11a with satisfactory radiation characteristics. The simulation is carried out using the finite integration time domain method (FITD) analysis technique. The EM simulated return loss, gain, directivity, radiation pattern, antenna efficiency and VSWR are presented for proposed antenna array. Good agreement is achieved between the simulated and measured results. 相似文献