一种新型小尺寸三陷波超宽带天线设计

文中提出了一种新型小尺寸具有三陷波特性的UWB天线。所设计的天线基本几何结构由50 Ω馈电线、圆形辐射贴片、缺陷地和一对开口谐振环组成,通过在天线的圆形辐射贴片上内嵌一对Y型贴片、地板上蚀刻出U型贴片和一对开口谐振环实现三陷波特性,天线的尺寸为30 mm×30 mm×16 mm。仿真和测试结果表明,该天线29~107 GHz的频段内回波损耗＜-10 dB,在37~42 GHz、515~5825 GHz和79~84 GHz3个频段内具有陷波特性,分别有效抑制了C频段的卫星系统、WLAN系统和X频段卫星系统对超宽带系统的干扰。在除3个阻带频段外的其余UWB工作频段范围内,有着良好的辐射方向特性和稳定的增益。仿真结果和实验结果表现出了良好的一致性。     

基于缺陷地结构的小型宽带天线设计

该文介绍了一种使用缺陷地结构的小型化超宽带天线,其尺寸为29 mm×31.5 mm×1.6 mm,该天线采用正六边形金属贴片作为天线辐射贴片。通过在介质板上引入开口谐振环,产生了新的工作谐振频段,并进一步拓宽了天线的工作频段。通过在辐射贴片上加载"十字形"分支结构,使电流路径改变,从而改善天线的宽带辐射特性。测试结果表明,该天线反射系数<-10 dB的频段为3.0～19.3 GHz。     

一种应用于n77/n78/n79频段的双频滤波天线

提出了一种基于双层结构的双频滤波天线,工作在n77/n78/n79频段。该天线由上层基板的2个矩形辐射贴片和下层基板的阶跃阻抗谐振器、2个“L”型枝节组成。2块介质基板材料均为FR4,且通过探针相连。上层介质基板上的2个矩形辐射贴片激发2个谐振模式,其中高频谐振用于形成n79频段,低频谐振用于形成n77/n78频段。为了获得双通带滤波效果,在下层介质基板中引入阶跃阻抗谐振器,在2个频段间形成带外辐射零点。此外,下层基板上的“L”型枝节可以引入额外的谐振点来扩大天线的带宽。该结构经过高频仿真软件(HFSS)优化,其仿真结果和测试结果均在3.37~3.53 GHz(n77/n78),4.55~4.64 GHz(n79)2个频段范围内,可用于6 GHz以下5G的无线通信应用。     

一种基于零阶谐振的双频电小天线设计

提出利用复合左右手传输线结构的零阶谐振设计一款具有双频特性的电小天线。该电小天线主要由介质基板、地面、加载了交指电容的贴片、弯曲线电感与圆角矩形虚拟地组成,具有电小尺寸特性(电尺寸为0.75)。该天线有两个工作频段,频段1的中心频率为1.22 GHz,频段2的中心频率为2.78 GHz,对应的相对带宽分别为3.28%和27.34%,同时覆盖了GPS L2 (1220 MHz)与WiMAX (2500～2700 MHz)两个通信频段。天线在两个工作频段内均具有良好的辐射特性,频段1和频段2的平均峰值增益分别为1.0 dBi和1.72 dBi,平均辐射效率分别为53.12%和74.07%。最终对所设计的天线进行实物加工和测试,测试结果与仿真结果吻合良好。     

60 GHz SIW缝隙耦合馈电微带贴片天线设计

目前设置的毫米波频段为28 GHz、38 GHz、60 GHz,为了提高微带贴片天线在60 GHz的整体辐射效率和带宽,设计一种由基片集成波导（SIW）馈电的微带贴片天线。为了获得更大的带宽,采用圆形与同心寄生圆环贴片结合的形式获得两个谐振频率,并且同时在辐射贴片上激励出TM11模式。仿真优化结果表明,该天线的阻抗带宽为40%,增益达到6.75 dBi,实测结果与仿真结果吻合良好。     

基于PDMS的柔性可穿戴微带天线北大核心

提出了一种新型柔性微带天线,具有结构简单、质量轻、易共形和可穿戴的功能,且易于与衣物集成。该天线是以柔性材料聚二甲基硅氧烷（PDMS）为介质基底,以金属镍为辐射贴片,将镍覆于介质基底两侧,设计了E形辐射贴片和矩形金属地,并基于微机电系统（MEMS）加工工艺进行加工制造,经测试取得了良好的效果。仿真结果表明,该天线的谐振频率为13.5 GHz,带宽为2.0 GHz。在平放和弯曲的状态下分别进行了测试,测得的谐振频率为12.8 GHz,带宽为1.2 GHz,谐振频率的测试结果变化范围较小,测试结果良好,说明该柔性天线可实现弯曲的性能且谐振频率和带宽比较稳定。该天线的仿真和测试结果都体现出良好的阻抗匹配性和稳定的辐射方向性,为天线与电子设备的集成化提供了参考。     

一种应用于5G的双频微带天线设计

提出了一种可应用于5G无线通信的小型化双频微带天线,该天线采用偏心侧馈和贴片开槽的方式使其具有双频工作特性。首先研究了微带贴片尺寸和贴片上倒L型开槽对天线谐振频率的影响;其次通过在微带贴片的馈点旁增加矩形细缝来调节天线的阻抗匹配特性;最后,利用电磁仿真软件HFSS对所提出的天线的性能进行了仿真与优化,结果表明其两个工作频段可覆盖3.5~3.6GHz和4.8~5.0GHz的5G频段,两个工作频段内的回波损耗最大为23dB,辐射增益分别为2.83dB和4.35dB。     

应用于WLAN和WiMAX的双频带印刷天线设计

提出了一种新型的用于WLAN/WiMAX通信系统的双频带印刷单极天线。通过改进的叉子形的辐射贴片,使天线在2.4 GHz频带内谐振。同时,在介质基板背面的引入寄生辐射贴片,利用与正面的辐射贴片的耦合效应,使天线谐振在5 GHz频带内。最终使得天线可以覆盖2.4/5.2/5.8 GHz WLAN 和5.5 GHz WiMAX频带。对加工后的天线模型测试表明,天线在工作频带内具有较好的全向辐射特性和可观的增益。因此,该天线在无线多频带通信系统中具有广泛的应用前景。     

一种双陷波超宽带马蹄形天线的设计

提出了一种新型的带有3.4 GHz和5.5 GHz双陷波特性的超宽带天线。天线由马蹄形的辐射贴片和共面波导馈电的传输线组成。回波损耗＜-10 dB的阻抗带宽是3.1~10.6 GHz,除了其中3.3~3.7 GHz 的WiMAX和5.15~5.825 GHz 的WLAN两个陷波频段。这些陷波的频段可以通过在天线的辐射贴片上增加长条裂缝和U型缝隙来保证。加工和测试的结果表明,天线有着良好的阻抗带宽和全向辐射方向图。     

一种紧凑型超宽带双陷波天线设计与研究

超宽带(UWB)系统的工作频段与现有的许多窄带系统频段相互重叠,因此各个系统信号之间存在潜在的干扰。针对上述问题提出了一种紧凑型超宽带双陷波天线。天线由一个圆形辐射贴片构成并通过50W的微带线进行馈电。接地板和传统的接地板相比被截短了,以提高天线的阻抗带宽。通过在辐射贴片上刻蚀H 型槽来实现天线的双陷波功能,并在微带馈线中引入了嵌入式谐振回路(ERC)结构,加大了天线的陷波深度和阻带宽度,陷波性能好于同频段的双陷波天线。仿真和测试结果表明,天线在3.1～4.2 GHz 以及5.0～6.6GHz 具有陷波特性,有效地避免了WiMAX 和WLAN 频段信号的干扰。同时在2.8 ~10.7 GHz 的其它频段上具有良好的阻抗匹配和较好辐射方向特性。天线的尺寸为34mm*26mm*1.6 mm,结构较为紧凑。     

A New Coupling Mechanism for Circularly Polarized Annular-Ring Patch Antenna

A novel coupling technique for circularly polarized annular-ring patch antenna is developed and discussed. The circular polarization (CP) radiation of the annular-ring patch antenna is achieved by a simple microstrip feed line through the coupling of a fan-shaped patch on the same plane of the antenna. Proper positioning of the coupling fan-shaped patch excites two orthogonal resonant modes with 90 phase difference, and a pure circular polarization is obtained. The dielectric material is a cylindrical block of ceramic with a permittivity of 25 and that reduces the size of the antenna. The prototype has been designed and fabricated and found to have an impedance bandwidth of 2.3% and a 3 dB axial-ratio bandwidth of about 0.6% at the center frequency of 2700 MHz. The characteristics of the proposed antenna have been by simulation software HFSS and experiment. The measured and simulated results are in good agreement.     

一种用于5G MIMO 系统的宽带高增益圆极化天线

为提升5G无线通信系统容量,设计了一款基于V 形缝隙耦合馈电的宽带高增益圆极化天线。该天线采用双层辐射贴片结构,拓展天线的阻抗带宽,并分别在辐射贴片和寄生贴片上刻蚀一对半径不等、位置正交的双圆形缝隙,有效改善了天线的圆极化特性。通过加载平板反射器提高天线的前后比,实现良好的定向辐射。实测结果表明,驻波比小于2的阻抗带宽为53.55% (2.27~3.93 GHz),在半功率波束宽度范围内轴比小于3 dB,轴比带宽为27.38%(2.9~3.82 GHz),在工作频带内实测的天线平均增益达到8.22 dBi。该天线适合作为5G多天线系统中的智能天线单元进行自适应波束赋形。     

Shorting pin loaded dual-band compact rectangular microstrip antenna

Theoretical and experimental investigations carried out on shorted microstrip patch antenna for dual band operation. The investigations were carried out by varying the shorting-pin position from the edge to the centre of the patch; such an antenna provides a frequency tunability range from 0.88?GHz to 1.08?GHz for first resonance and from 2.20?GHz to 2.59?GHz for second resonance. A frequency ratio of about 2.91 to 2.2 for the two operating frequencies is observed. When the shorting-pin position is close to centre or at the centre of the patch, a single resonant frequency is observed. It is also observed that the resonant frequency of the antenna heavily depends upon the thickness of the substrate, dielectric constant of the substrate and radius of the shorting-pin.     

一种新型的具有带阻特性的超宽带微带天线

设计制作了一种新型的具有带阻特性的超宽带微带天线。天线采用50Ω共面波导馈电结构,辐射单元采用圆形金属贴片,在圆形贴片上开一个倒U形槽,实现了天线的带阻特性。测试结果表明:在频率段2.8-12.0 GHz内(除5.00-5.95 GHz外)天线驻波比小于2,且天线具有近似全向辐射的特性;而天线在频率段5.00-5.95 GHz内形成了阻带,从而有效阻隔了WLAN(5.150-5.825 GHz)频率段。该天线具有尺寸小,易于与微波电路集成等优点,可以用于超宽带系统。     

基于高阻抗表面PBG结构微带天线的设计与分析

以高介电常数介质为基底,利用辐射贴片开槽和微带馈电技术,设计了一款尺寸仅为16mm×12.45mm的小型微带天线。通过在此天线微带贴片周围加载高阻抗表面型光子晶体,有效抑制了表面波,改善了以高介电常数介质为基底的贴片天线的性能,实现了一款多频小型化PBG天线。HFSS仿真结果表明,加载高阻抗表面结构后的微带天线出现了三个谐振频点,分别为2.74、2.86和3.80GHz,其对应的增益分别达到6.02、8.38和5.69dB。所设计的光子晶体天线物理尺寸较小,方向性良好且具有多频特性,因此可为实际通信天线的应用提供参考。     

Double MOS Loaded Circular Microstrip Antenna with Airgap for Mobile Communication

A novel model of a wide frequency range double MOS loaded circular microstrip patch antenna with airgap between ground plane and substrate is proposed. In this structure two metal oxide semiconductor (MOS) devices are loaded on the patch to enhance the operating frequency range of antenna. To investigate the antenna, different parameters such as resonance frequency, input impedance, frequency agility, VSWR, radiation pattern etc. are calculated and simulated. The resonant frequency of proposed 10 mm radius patch is upward shifted from 5.2 to 6.8 GHz using 1 mm airgap and by loading MOS, antenna can be tuned down to 1.27 GHz operating frequency, which leads to compactness and tunability of antenna. Proposed antenna can be tuned between 1.27 and 6.8 GHz frequency of operation which makes the antenna highly suitable for wide frequency range of mobile communication. The proposed double MOS loaded antenna possessed 82.94 % frequency agility. The antenna is worth for GPS, WLAN, UMTS, and WiMAX operations.     

Broadband U-shaped dielectric resonator antenna with elliptical patch feed

A dielectric resonator antenna formed by a U-shaped dielectric resonator and a conformal elliptical patch feed is proposed for wideband communication applications. Simulated results agree well with measured ones, showing good performance in terms of bandwidth and radiation patterns. The measured impedance bandwidth of S₁₁ < -10 dB is about 72%, covering the frequency range 3.82-8.12 GHz. It has a gain of 4.3-7.6 dBi over the whole operating band with a ground size of about 1.2 lambda₀ times 1.2 lambda₀, lambda₀ being the central operating frequency.     

An analysis of RCS for dual-band slotted patch antenna with a thin dielectric using shorted stubs metamaterial absorber

A dual-band slotted patch antenna with thin dielectric has been proposed for Ku–band applications. A rectangular patch with pair of bent slots at each side of center has been designed and resonant at 11.95 GHz and 14.25 GHz with respect to ITU standard. A dual resonance ultrathin metamaterial absorber (MMA) based on circular rings and shorted stubs operating at same frequency bands have been designed. Its behavior at an oblique angle of incidence and polarization sensitivity has been also observed. In this research work, it has been obtained that when dual–band slotted patch antenna is surrounded by proposed MMA structure, it significantly enhances in-band stealth capability of the antenna. The monostatic and bistatic RCS of the proposed design has been reduced significantly whilst maintaining and preserving the antenna radiation performance. This design finds its application in satellite and wireless communication.     

Design and fabrication of a wideband reflectarray antenna in Ku and K bands

The purpose of this paper is design of a wide band single layer reflectarray antenna using a new broadband cell. The proposed cell consists of two parts. The first part is a circular patch and the second one is a ring with some additional stubs, which are attached to the patch and ring in a symmetrical form. The circular patch and ring elements are designed at frequencies of 20 GHz and 15 GHz respectively. In order to increase the reflectarray antenna bandwidth, at first the dimensions of the patch, ring and stubs are optimized to attain uniform phase response in the frequency range from 11 GHz to 20 GHz. Then an air layer is considered under the dielectric substrate. The reflectarray antenna is designed based on this optimized wideband unit cell. A wideband horn antenna is also designed as a feed antenna for the proposed reflectarray structure. The reflectarray antenna with horn are simulated. The 1 dB gain-bandwidth of 4.66 GHz is obtained (27.4% fractional bandwidth) in the frequency band of 14.72 GHz to19.38 GHz. Finally, the reflectarray antenna is fabricated and tested. It can be seen that there is a good agreement between simulation and measurement results.