一种小型陷波多用途超宽带天线

提出了一种小型陷波多用途超宽带微带天线。该天线与一般的宽缝隙微带天线类似,通过在矩形调谐支节上开V形缝隙获得了陷波特性。通过数值仿真和实验测量,对天线的阻抗特性、方向图和增益进行了研究。结果显示该天线在2.4到11GHz频段内驻波比小于2,在5.15~5.95 GHz范围内具有陷波特性。同时该天线还可覆盖2.4GHz无线局域网(WLAN)频段,在整个工作频段内有良好的辐射方向特性。     

小型化陷波超宽带天线

针对超宽带通信系统（3．1～10．6GHz）与WLAN工作频段（5．15～5．825GHz）之间存在的电磁干扰,本文提出了一种小型化陷波超宽带天线。该天线结构简单,体积较小,陷波特性良好。通过在介质板上侧的金属地板刻蚀C形槽缝可以使天线在5．15～5．825GHz频段实现良好的陷波特性,而且调节C形槽缝的长度可以调节阻带的频段。研究结果表明,该天线的辐射特性良好,能够广泛应用于超宽带通信系统。     

新型陷波超宽带天线设计

为了避免超宽带通信中其他系统的干扰问题,设计了一种双阻带的超宽带天线。通过采用一种不等宽的条带结构,从而较好地实现了双阻带特性。除了在要求屏蔽的WiMAX频段(3.3~3.7 GHz)以及X频段的卫星通信下行频段(7.25~8.395 GHz),回波损耗S11在整个频段<-10 dB。通过仿真设计结果表明,该天线在3.38~3.58 GHz和7.29~8.13 GHz处均具有较好的阻带性质。     

具有优越陷波选择性和带宽的超宽带缝隙天线

提出一种具有改善陷波特性的超宽带缝隙天线,该天线由T形微带枝节馈电的矩形缝隙天线来实现超宽频阻抗带宽,由嵌入在T形枝节上的1 4波长缝隙和地板上的一对1 4波长的缝隙构成两阶滤波器,实现陷波优越的选择形和带宽特性。另外,可以通过调整所嵌入的缝隙的宽度和位置来调节陷波的带宽。该天线具有较好的全向辐射特性,可以应用在各种超宽带通信系统中。     

基于CSRR 改进的双陷波超宽带天线

针对超宽带系统易受窄带信号干扰的问题,提出了一种基于互补金属开口谐振环(CSRR)改进的双陷波超宽带缝隙天线。在现有文献中,单个CSRR只能实现单陷波功能,要想增加陷波频段,只能通过增加CSRR个数的方法来实现,这就增加了设计的复杂性。通过天线辐射贴片上的表面电流分布图分析了CSRR内外环与两个陷波频段的对应关系。对所设计的超宽带天线进行了制作和测量,实测结果与仿真结果吻合较好,证明了该设计方法的正确性。     

五陷波超宽带天线的研究与设计

为滤除窄带信号对超宽带通信系统的干扰,研究并设计了一种具有五个陷波特性的超宽带天线。采用微带线馈电,在辐射贴片上刻蚀一个椭圆形开环谐振器,并在馈线旁制作了四个不同尺寸的U 形寄生短截线,以实现天线的陷波特性,天线尺寸为30 mm×40 mm×0.8 mm。仿真实验验证了天线工作频率范围为2.8~12 GHz;有效滤除了WiMAX 波段(2.94~3.42 GHz)、INSAT 波段(4.42~4.53 GHz)、WLAN 波段(5.32~5.5 GHz)、X 波段上行频(7.01~7.27 GHz)和X 波段下行频(7.57~8.05 GHz)。实测数据表明,天线的工作频段、方向性、增益及五个陷波特性等性能指标良好。     

一种紧凑型超宽带双陷波天线的设计

提出了一款共面波导馈电的超宽带双陷波天线.该天线主要由梯形共面地、微带馈线和圆形辐射体三部分构成.其中,梯形共面地使天线实现超宽带,圆形辐射贴片上的倒L形槽和弧形槽使天线实现陷波特性.使用Ansoft HFSS软件对所设计天线进行仿真实验,然后加工成实物天线并进行测试.结果表明:天线回波损耗及辐射方向图的实测结果与仿真...     

一种微带馈电的双陷波超宽带天线

为适应超宽带通信的需求,设计了一种小型印刷超宽带天线。天线采用五边扇形金属贴片作为辐射贴片,通过开U形缝隙实现阻带特性,利用仿真软件HFSS对天线的阻抗特性及方向图进行研究。结果表明,该天线在3.0~14.0 GHz的频率范围内驻波比〈2,其中在3.25~4.10 GHz和5.3~5.86 GHz两个频率范围内有阻带特...     

宽缝结构超宽带天线的设计

提出一种宽缝结构超宽带天线的改进设计方案，该天线的宽缝设计为半圆形，馈电微带线的终端设计为六边形，微带线的特性阻抗设计为75欧姆。通过数值仿真和实验测量对天线的阻抗特性、方向图和增益进行了研究。实测结果表明，该天线工作频段覆盖1．96GHz～15．4GHz，工作频段内驻波比小于2，并且在整个工作频段内具有良好的辐射方向特性。     

新型小尺寸双陷波超宽带天线设计

给出了一种小型化具有双陷波特性的超宽带天线的设计方法,采用层叠加载缝隙方式,减小了天线结构尺寸.使用微波仿真软件HFSS对天线的结构尺寸进行了分析和优化,对回波损耗,驻波比和辐射图进行了研究.分析结果表明,在超宽带非陷波频段,回波损耗不大于-10 dB,有稳定的方向图;在3.3～3.8 GHz和5.0～5.9 GHz陷波频段,回波损耗平均有7 dB的增长,产生了很好的陷波抑制作用,避免了在重叠频段系统信号的互干扰,提高了天线系统性能.     

Compact ultra-wideband antenna with tri-band notched characteristic

A compact ultra-wideband printed planar antenna with tri-band notched characteristic is presented. Two different types of slots are used to obtain tri-band notched characteristic. By using a U-slot defected ground structure, a notched band, 5?6 GHz for WLAN, is achieved. An H-shaped slot is etched on the radiating patch to obtain another two notched bands at 3.3?3.7 GHz for WiMAX and 7.2 GHz for some C-band satellite communication systems. The proposed antenna yields an impedance bandwidth of 3.1?10.6 GHz with VSWR , 2, except the notched bands. The antenna is successfully simulated and measured, showing tri-band notched characteristic can be obtained by using two different slots.     

Compact band-notched ultra-wideband antenna

A novel band-notched ultra-wideband antenna having small dimensions (12.7 times 22 times 1.6 mm) is proposed. With the use of a modified ground plane, a microstrip feed with bevel, and parallel dual patches, the proposed antenna has very wide impedance bandwidth measured at 8.18 GHz (2.97 to 11.15 GHz, defined by 2:1 VSWR). By inserting slits in the ground plane, a band-notched frequency of 5.12 to 5.88 GHz is achieved. The transmission loss and group delay are measured and discussed.     

Compact wide-slot antenna for ultra-wideband communications

A novel microstrip-line-fed wide-slot antenna is proposed. Investigations on the prototype of the bevelling square slot design with a small tail slot were employed to increase the wide impedance bandwidth range. The proposed antenna has a simple, symmetric structure and compact size. The matching impedance below 2:1 VSWR is applicable to ultra-wideband communications (3.1-10.6-GHz) with proper choices of bevel of the slot and the size of the tail slot cut in the ground plane.     

Compact omnidirectional band-notch ultra-wideband antenna

A novel ultra-wideband printed monopole antenna with a band-notch characteristic and stable omnidirectional radiation is presented. The antenna design adopts a bevelled square patch as a monopole, a double-feed technique and a microstrip feeder embedded with an inverted U-shaped slot. Good agreement between simulation and experiment shows that the proposed antenna achieves an impedance bandwidth of 3.05-5.15 and 6.02-10.84 GHz for VSWRles2, a stable omnidirectional radiation and a low cross-polarisation level.     

Compact coplanar waveguide-fed ultra-wideband antenna

A novel coplanar waveguide fed planar antenna with an extremely broad bandwidth in excess of 128% is presented. This comfortably covers the required bandwidth for ultra-wideband communication applications, and exhibits the required omnidirectional pattern characteristics. The antenna is also very small in size, only 0.3 lambda square at 3 GHz     

5.2 GHz notched ultra-wideband antenna using slot-type SRR

A band notch characteristic using a slot-type split ring resonator (SRR) working at microwave frequencies is used for designing a UWB antenna requiring the rejection of some frequency band, which is already in use by existing wireless services. The slot-type SRR is employed effectively for notching unwanted frequency band such as that for WLAN service, since it can be implemented with a small dimension and in a high Q operation similarly to the conventional strip-type SRR. Based on the simulation and measurement results, a band notched UWB antenna using a slot-type SRR is very effective in rejecting unwanted frequency in terms of its selectivity and small real estate.     

陷波特性平面超宽带天线的研究进展

对陷波特性超宽带(UWB)天线的研究现状进行了分析总结.介绍了陷波特性超宽带天线的技术背景,分别对近年来陷波功能超宽带天线的设计进行了详细的评论,最后展望了陷波特性超宽带天线的未来发展方向.     

Compact band-notched ultra-wideband antenna with parasitic elements

A compact band-notched ultra-wideband antenna with parasitic elements having small dimensions (12.7 x 21.6 x 1.6 mm) is proposed. With the use of a modified half-circular patch and half-wavelength parasitic lines, the proposed antenna has very wide impedance bandwidth measured at 8.6 GHz. By placing a parasitic loop, a band-notched frequency of 5.16 to 5.98 GHz is achieved. The group delay and transmission loss are measured and discussed.     

Compact ultra-wideband antenna with dual bandstop characteristic

A simple and compact ultra-wideband microstrip-fed planar antenna with dual bandstop characteristic is presented. By using a U-slot defected ground structure (DGS) in the feedline, a stopband of 600 MHz (from 5.45 to 6.05 GHz) for band rejection of WLAN is achieved. To obtain another stopband, an arched slot is etched on the radiating patch. Experimental results show that the designed antenna, with a compact size of 30 times 24.5 mm, has an impedance bandwidth of 2.8-11 GHz for voltage standing wave ratio (VSWR) less than 2, except two frequency stop-bands of 3.5-4.25 GHz and 5.45- 6.05 GHz. Moreover, the antenna has good omnidirectional radiation patterns in the H-plane.