Jahnavi Kachhia, Amit V. Patel, Alpesh Vala, Romil Patel, Keyur K. Mahant
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引用次数: 13
摘要
本文介绍了新一代卫星用缝隙天线,这种天线的损耗可以通过天线的功率或增益来补偿。第一个选项非常关键,因为它完全取决于卫星的大小,所以我们提出了高增益天线,在衬底集成波导(SIW)结构中以对数大小创建矩形,梯形和I形槽的数量。该结构由各种形状的槽天线阵列组成,设计用于C和X波段应用。在介电常数为2.2、厚度为0.508 mm的rt_d衬底上设计了基本结构。利用HFSS (High Frequency Structure Simulator)对多槽阵列和槽形效应进行了研究和分析。该设计得到了其回波损耗、增益图、驻波比和辐射方向图特性的支持,以验证多波段操作。所有天线增益均大于9db,回波损耗均小于- 10db。然而,拟议的结构对其物理尺寸非常敏感。
Logarithmic Slots Antennas Using Substrate Integrated Waveguide
This paper represents new generation of slotted antennas for satellite application where the loss can be compensated in terms of power or gain of antenna. First option is very crucial because it totally depends on size of satellite so we have proposed the high gain antenna creating number of rectangular, trapezoidal, and I shape slots in logarithm size in Substrate Integrated Waveguide (SIW) structure. The structure consists of an array of various shape slots antenna designed to operate in C and X band applications. The basic structures have been designed over a RT duroid substrate with dielectric constant of 2.2 and with a thickness of 0.508 mm. Multiple slots array and shape of slot effects have been studied and analyzed using HFSS (High Frequency Structure Simulator). The designs have been supported with its return loss, gain plot, VSWR, and radiation pattern characteristics to validate multiband operation. All the proposed antennas give gain more than 9 dB and return loss better than −10 dB. However, the proposed structures have been very sensitive to their physical dimensions.
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