Numerical Analysis of a Tunable Rectangular Patch Antenna with One Tuning Post

The finite element method(FEM) is applied to a thin substrate rectangular antenna with a shorting post. The results of the resonant frequencies are in good agreement with the experimental data. The input impedances are calculated and the results are presented. In principle, this method is applicable to a microstrip antenna with shorting posts in arbitrary locations.

Multi-Band Rectangular Patch End-Fire Antenna Array

A novel multi-band end-fire antenna array was designed, fabricated, and characterized. Analytical calculations were carried out to determine the critical antenna dimensions and the design was optimized using a 3D electromagnetic finite-element solver. The measured results were in good agreement with the designed results. The proposed antenna array exhibits multi-band capabilities which can be potentially used for applications that require a multi-band end-fire radiation pattern.

Rectangular Microstrip Patch Antenna Using Air as Substrate for S-Band Communication

A Rectangular Microstrip Patch Antenna model is proposed using air as a substrate to study the characteristics of designed antenna. The dimensions of designed antenna are 17 mm × 16.66 mm with substrate at frequency 3.525 GHz. In this paper, the simulation is performed by using software Computer Simulation Technology (CST) Microwave studio based on finite difference time domain technique. The characterization of the designed antenna was analyzed in terms of return loss, bandwidth, directivity, gain, radiation pattern, VSWR.

Design of a High-Gain 2 × 1 Array Antenna for S-Band Applications

Antennas are an indispensable element in wireless networks. For long-distance wireless communication, antenna gains need to be very strong (highly directive) because the signal from the antenna loses a lot of strength as it travels over long distances. This is true in the military with missile, radar, and satellite systems, etc. Antenna arrays are commonly employed to focus electromagnetic waves in a certain direction that cannot be achieved perfectly with a single-element antenna. The goal of this study is to design a rectangular microstrip high-gain 2 × 1 array antenna using ADS Momentum. This microstrip patch array design makes use of the RT-DUROID 5880 as a substrate with a dielectric constant of 2.2, substrate height of 1.588 mm, and tangent loss of 0.001. To achieve efficient gain and return loss characteristics for the proposed array antenna, RT-Duroid is a good choice of dielectric material. The designed array antenna is made up of two rectangular patches, which have a resonance frequency of 3.3 GHz. These rectangular patches are excited by microstrip feed lines with 13 mm lengths and 4.8 mm widths. The impedance of the patches is perfectly matched by these transmission lines, which helps to get better antenna characteristics. At a resonance frequency of 3.3 GHz, the suggested antenna array has a directivity of 10.50 dB and a maximum gain of 9.90 dB in the S-band. The S parameters, 3D radiation pattern, directivity, gain, and efficiency of the constructed array antenna are all available in ADS Momentum.

辐射零点可控的平面滤波贴片天线

为满足射频前端器件集成化和多功能化的需求,设计了一款适用于WLAN 5 GHz波段的辐射零点可控的平面滤波贴片天线。该天线以同轴探针馈电的微带贴片天线为原型,上表面是由融合共生带和矩形槽的金属辐射贴片,下表面试接地面。其中共生条带位于辐射贴片的宽边两侧,矩形槽蚀刻在辐射贴片上,位于同轴馈电点两侧。两种结构分别在通带的低频和高频处各引入一个辐射零点,天线实现了的滤波响应和良好的辐射特性,同时两个辐射零点的位置自由可控,提高了设计的灵活度。仿真与测试结果表明:滤波天线的中心频率为5.25 GHz,相对带宽为14%(4.89~5.62 GHz),两个辐射零点分别位于4.55和6.05 GHz处;工作通带内增益平缓,平均增益约为7 dBi,通带外抑制水平大于19 dBi,测试与仿真结果较为一致。该滤波天线的设计未引入额外的滤波器网络,节省了天线的整体尺寸,且剖面低、重量轻、结构紧凑,具有良好的滤波和辐射性能。

基于HFSS的移动通信天线设计

就高校天线技术课程的形象直观化实验不足现象,结合我国移动通信运营商的工程应用情况,设计了应用于室内覆盖的单锥天线和应用于GPS导航的矩形微带天线,基于ANSOFT HFSS仿真展示了散射参数S和辐射远场,提高了学生的工程实践能力。

基于矩形贴片天线的应变测量技术

为了研究基于矩形贴片天线的应变测量技术,根据传输线模型,分析了矩形贴片天线与应变间的作用机理,明确了天线辐射单元尺寸受应变影响,可导致贴片天线中心频率发生偏移,且获得了频率偏移量与应变间的线性关系理论表达式.设计3种不同中心频率的矩形贴片天线,利用高频结构模拟器(high frequency structure simulator,HFSS)电磁仿真软件和拉伸应变检测系统,对不同应变状态下,贴片天线中心频率随应变的变化趋势进行了仿真与实验测试.仿真和实验结果表明:贴片天线的中心频率的偏移量与应变之间线性关系明显,且贴片天线的中心频率越高,应变灵敏度越大.利用矩形贴片天线作为应变传感器,可满足结构应变测量要求,为结构健康无线监测研究奠定了基础.

可调频矩形贴片天线的研究

本文首次采用有限元法对有调谐销钉的可调频薄基片矩形贴片微带天线的谐振频率和输入阻抗进行了计算，谐振频率的计算结果与实验结果符合很好．该方法原则上适合于任意数目调谐销钉置于任意位置的情形．可能会是处理带调谐销钉的最有效的方法．

C波段微带阵列天线的设计分析

微带阵列天线的使用对飞机的隐身性能、机动性能等都具有非常重要的现实意义,在分析矩形微带天线设计原理的基础上,依据指标设计要求,完成了一个C频段微带天线阵的设计;同时,利用三维电磁场仿真软件(Ansoft HFSS)进行了仿真,并对其设计的参数进行了优化;在此基础上,通过实物加工,暗室实测,以及与AnsoftHFSS仿真结果进行比较,达到了C频段微带天线阵设计的目的,具有一定的实用工程价值。

渐进空间映射算法优化设计柱面矩形贴片天线

将空间映射算法推广到共形天线的优化设计之中,并设计了一个谐振频率在2.5GHz的柱面矩形贴片天线。粗糙模型和精细模型分别采用腔模理论和全波电磁仿真软件HFSS进行分析,并通过渐进空间映射算法联系起来。计算结果表明,与直接优化精细模型相比,该方法可以大大减少计算时间,提高设计效率。

基于双三角形谐振环结构左手材料的矩形微带贴片天线

设计了一种双三角形谐振环结构的左手材料,通过理论计算和仿真实验证明了其具有电磁左手材料性质;将双三角形谐振环结构的左手材料加载在矩形贴片微带天线上,并给出了矩形微带贴片天线的结构参数;利用HFSS仿真软件对比了加载左手材料前后矩形贴片微带天线的性能,仿真结果表明,左手材料的加载提高了天线的带宽,增大了天线的增益,有效地抑制了旁瓣。

矩形微带贴片天线的谐振频率

本文采用有限元法对有短路销钉的可调频薄基片矩形贴片微带天线的谐振频率进行计算，其计算结果与实验结果相当一致，该方法原则上适合于多个短路销钉置于任意位置的情形，可能是处理带短路销钉微带贴片天线的最有效的方法。

12.5GHz微带阵列天线的设计

本文完成了一个12.5GHz微带天线阵列的设计。通过Ansoft HFSS软件对天线阵列进行了仿真设计和优化,并制成PCB板。最后在微波暗室中对8×8天线阵列进行测试,测得12.5GHz时的最高增益为22.9dBi,驻波小于2.0。

矩形贴片天线有限接地面对方向图的影响

讨论了一致性几何绕射理论（ＵＴＤ）的适用范围，并提出其适合于源离绕射边近的处理方法。在此基础上讨论了矩形贴片天线有限接地面的影响。数值结果与已发表的文献中的实验结果符合很好。

带金属柱矩形贴片天线的谐振频率

首次采用有限元与谐振腔模型结合的混合有限元方法对有金属方柱的薄基片矩形贴片天线的谐振频率进行了数值计算和实验分析，谐振频率的计算结果与实验结果符合很好。

十六元矩形微带天线阵的设计与分析

十六元 2× 8矩形微带平面阵列天线阵采用并联侧馈的馈电网络 ,对各微带阵元进行同相馈电 ,同时在馈电网络中利用阻抗变换对天线的阻抗进行匹配。通过在聚四氟乙烯板上制做该天线阵 ,并对其方向图的主瓣宽度和输入驻波比进行了分析和测试 ,结果证明在 fr=9.5 GHz的工作频率上 。

36GHz微带天线阵列设计

采用Rogers(5880)作为介质基板材料,通过模拟仿真设计了一款工作频率在36GHz的矩形微带贴片天线。为了具有更高的增益与更窄的方向角,在单片贴片的基础上采用并联侧馈的馈电网络,利用阻抗变换对天线的特性阻抗进行匹配,设计了一款十六元(4×4)阵列天线,并且获得了较好的辐射特性。

带金属柱的背腔式矩形贴片天线的谐振频率

采用有限元和界面积分公式混合的数值方法对带金属柱的背腔式矩形贴片天线进行分析,通过分析输入阻抗,详细讨论了金属柱的大小和馈电点的位置对天线谐振频率的影响.结果表明,天线的谐振频率随金属柱的尺寸增大而上升,且背腔式贴片天线的内部场结构也与普通贴片天线不同.

小型双频圆极化贴片天线

本文提出了一种新型的小型双频圆极化贴片天线.通过在矩形贴片各边加载矩形槽产生扰动,在2.45GHz和5.04GHz频段内实现了圆极化性能,并通过调节各矩形槽的长度,实现阻抗带宽与3dB轴比带宽的匹配.天线采用同轴馈电,尺寸为0.218λ_0×0.211λ_0×0.013λ_0(λ_0为2.45GHz的自由空间波长).实测结果表明:天线圆极化工作带宽为1.26%(2.445~2.476GHz),0.92%(5.013~5.059GHz),各频段内的峰值增益分别为1.25dBi和1.32dBi.实测与仿真结果基本一致.