小型化八边形基片集成波导背腔缝隙天线

提出一款新颖的W波段八边形基片集成波导(SIW)背腔缝隙天线。相较传统的缝隙天线，具有体积小、易加工、Q值高、成本低等优点，且易于成阵。通过调节天线背腔缝隙的长度、宽度，以及SIW腔体的尺寸优化天线的辐射特性，通过电磁仿真软件HFSS对模型进行仿真优化，确定了天线的最优结构。仿真实验结果表明，所设计的天线相对带宽约4.5%，方向性优良，中心频率点谐振深度<-31 dB，天线最大增益达到5 dBi，满足设计要求，验证了设计的正确性。所设计的SIW背腔缝隙天线拓宽了数字通信的可用频谱，是一种新的尝试，可为以后的研究提供新的参考思路。     

E波段宽带高增益透射阵天线设计

设计了一款E 波段高增益天线,该天线由基片集成波导缝隙天线和透射阵组成。为实现足够的相位补 偿范围,设计了多种贴片结构单元。该透射阵共有289 个单元,口径尺寸为33. 065 mm × 33. 065 mm,该天线的焦径比 为0. 45。实测结果表明,加载透射阵后,SIW 缝隙天线的增益提高了14. 63 dB,在74. 23 GHz 增益达到23. 28 dBi,口径 效率为24. 23%,3 dB 增益带宽为10. 83%。     

SIW 耦合馈电阵列天线

提出一种新型宽带、结构紧凑的基片集成波导(SIW)背腔阵列天线的设计方法。所设计的SIW 阵列由紧密相连的背腔构成馈电网络,每个背腔上开宽缝作为辐射单元。SIW 背腔天线单元紧密排列,主要通过单元间感性耦合窗耦合馈电。SIW 背腔既是辐射单元又能实现能量分配,不需加载额外的馈电网络,因此该阵列结构十分紧凑。工作在20 GHz 频段的2×2 SIW 耦合馈电阵和4×4 SIW 耦合馈电阵已加工实现,仿真和测试结果表明所提出的SIW阵列设计方法简单、阵列结构紧凑、天线辐射性能良好。另外,本文研究了高增益大规模阵列天线的组阵方法。在2×2 SIW 耦合馈电阵的基础上,采用8×8 SIW 并联馈电网络加载天线子阵的方法设计了16×16 宽带高增益SIW 阵列天线并进行了加工测试。结果表明,采用这种组阵方法,天线阵阵元排布紧密,天线具有带宽宽、增益高、损耗低等优点。     

具备阻抗和低副瓣宽带特性的脊波导缝隙阵列天线设计

设计了一种16×8脊波导缝隙阵列天线,线阵阵面分成两个子阵,馈电采用同轴馈电与耦合缝隙馈电结合的两级馈电方式,辐射缝隙分布为泰勒分布。天线设计采用近场诊断方法和阻抗过载技术进行优化。天线实物加工测试结果表明,天线在X频段驻波带宽(VSWR≤1.5)为7.3%,最低副瓣达到-25.8 dB,副瓣电平带宽(SLL≤-19 dB)为6.2%。与已有文献相比,该天线同时具备阻抗宽带特性和低副瓣宽带特性,工作频带内具有增益均大于16 dBi的高增益特性。     

W波段宽带SIW背腔缝隙天线

W波段（75~110 GHz）的电磁波大气吸收率低、波长短、可用频带宽,在雷达、通信等领域应用广泛.文章设计了一种W波段基片集成波导（substrate integrated waveguide,SIW）背腔缝隙天线,-10 dB的阻抗带宽达到28.6%（78.93~105.24 GHz）,覆盖了W波段75%的频带范围.天线采用双层基片结构.上层为SIW谐振腔及四条辐射缝隙构成的谐振辐射单元,谐振腔内同时存在TM₁₃₀与TM₃₁₀混合模、TM₃₂₀模以及TM₃₃₀模三种高次模,和辐射缝隙一起形成多谐特性,实现带宽拓展;底层为通过耦合缝隙馈电的集成波导,易于扩展成平面网络,构建高增益背腔缝隙天线阵列.该天线频带宽、交叉极化低、剖面低、易于与平面微波电路集成、加工成本低,具有良好的应用前景.     

一种CPW馈电圆形缝隙宽带圆极化天线

设计了一种共面波导(CPW)单端口馈电的圆形缝隙宽带圆极化(CP)印刷天线。该天线通过在圆形缝隙侧面附加圆形枝节,结合CPW端口伸出的激励带条,激励出一对相位差90°的差分正交简并模,从而辐射圆极化波。对天线模型进行了优化设计和实物加工,测试结果表明,该天线的轴比带宽(AR<3dB)达到12.5%;最大增益为3.8dB,在轴比带宽内增益的变化幅度小于1dB。     

低副瓣基片集成波导缝隙阵圆极化天线

基于基片集成波导技术与标准印刷电路板工艺,实现了圆极化、低副瓣的平面缝隙天线阵列.辐射单元采用基片集成波导项层匹配缝隙对结构,行波式圆极化单元.辐射缝隙经过改进,单个辐射单元的反射系数均小于-30 dB.平面阵列采用基片集成波导低副瓣功分器馈电.文中给出了具体设计公式、方法和仿真结果.设计制作的16×16阵列在16.1 GHz频点上实测增益为30 dB,轴比为0.7 dB,副瓣小于-20 dB.     

宽频带膜片激励波导窄边非倾斜缝隙阵天线

文中提出一种新型宽频带低交叉极化的波导缝隙线阵设计，辐射单元是由波导内膜片激励的窄边非倾斜缝隙。线阵划分成多个子阵，并由功分器馈电。设计、加工了一个16单元X波段的均匀直线波导缝隙阵，测试得到7．2％阻抗带宽（VSWR≤1．5），天线辐射方向图最高副瓣电平低于-11．8dB，并且具有低于-39dB的交叉极化特性。     

低成本高性能背腔缝隙阵列天线

基于基片集成空腔波导（ESIW）结构设计并研制了一款低成本、宽带、高增益的背腔缝隙阵列天线。天线工作在K波段,由5层低成本FR4介质板组成,通过激励谐振腔中的TM130与TM310模式以及TM320模式来拓展天线带宽。测试结果表明,该天线的子阵和阵列的反射系数小于-10 dB的工作带宽分别为27.6%和23.7%,带内最大增益为27.1 dBi,与仿真结果比较吻合。与传统背腔缝隙天线相比,该天线具有频带宽、辐射性能良好、加工成本低等特点。     

平衡馈电基片集成波导缝隙阵列全向天线

基于基片集成波导技术与标准印刷电路板工艺,设计并实现了缝隙阵列全向天线.为展宽带宽,天线由两个相同子阵组成.采用带状线 T 型功分器和共面波导转接,实现天线的平衡馈电结构.测试结果与全波仿真结果表明,对称平衡馈电基片集成波导缝隙阵列全向天线具有良好的全向性,较高的增益,相对较宽的带宽和紧凑的结构.     

Broadband circularly polarised hexagonal slot antenna excited by a tapered microstrip feeder

In this article, a broadband circularly polarised slot antenna fed by a single microstrip line is implemented. The proposed antenna is composed of an unequilateral hexagonal slot to implement circular polarisation and tapered microstrip feeding line to enhance the impedance bandwidth. A conducting reflector is also employed to enhance the antenna gain. The proposed antenna, 60 mm × 60 mm × 18.12 mm in size, was fabricated and tested. The measured??10 dB reflection bandwidth and 3 dB axial ratio bandwidth were 48.9% and 17%, respectively. The measured gain of the fabricated antenna ranged from 5.4 dBi to 6 dBi within an axial ratio bandwidth of 3 dB.     

一种面向无线通信应用的宽频带圆极化天线阵

提出了一种新型宽频带2×2方形缝隙槽圆极化天线阵.天线阵包含一个连续旋转馈电结构、4个非对称U型馈电枝节和一个方形槽接地板.与传统圆极化天线阵所采用的L型馈电枝节不同,首次提出了一种新型非对称U形馈电枝节来改善天线的圆极化性能.利用这些枝节和缝隙槽作为微扰元素,缝隙槽天线阵可以激发多重圆极化谐振模式,进而产生宽频带的圆...     

A 42‐GHz Wideband Cavity‐Backed Slot Antenna with Thick Ground Plane

We investigate the characteristics of a wideband and high‐gain cavity‐backed slot antenna in terms of the reflection coefficients, radiation patterns, and gain. A cavity‐backed slot antenna structure includes baffles, reflectors, and thick ground planes. The measured gain and bandwidth of a 10‐dB return loss in a cavity‐backed 2 × 2 array slot antenna with h₁=2 mm, d = 2 mm are 15.5 dBi and nearly 27% respectively, at 42 GHz. Baffles and reflectors are used to increase antenna gain, thus reducing the coupling among the slots on the thick ground plane.     

Grating Lobe Suppression of Narrow-Wall Slotted Hollow Waveguide Millimeter-Wave Planar Antenna for Arbitrarily Linear Polarization

A high-gain and high-efficiency slotted waveguide planar antenna is developed in the millimeter-wave band. Forty-five degree inclined polarization is required for automotive radar systems. In the design of slotted waveguide array for arbitrarily linear polarization, slot spacing is one guide wavelength which is larger than a wavelength in free space. Consequently, grating lobes appear in the radiation pattern. So, we developed a slotted waveguide planar antenna composed of post-loaded narrow-wall slots and a single-layer alternating-phase feeding circuit. A planar antenna with suppressed grating lobes has been fabricated and its RF performance has been measured. The measured gain is 33.2 dBi and antenna efficiency is 56% at 76 GHz. Grating lobe level is -28.6 dB lower than main lobe level. Since the proposed structure remains simple, the antenna is expected to be manufactured by metal injection molding for low cost     

Ku波段宽带高增益基片集成腔圆极化阵列天线北大核心CSCD

提出了一款应用于Ku波段的宽带高增益基片集成腔(Substrate Integrated Cavity,SIC)圆极化阵列天线。通过引入沿SIC口径面对角线放置的一对半月形寄生贴片和SIC底部馈电纵缝,使SIC中的TM_(211)和TM_(121)谐振模式幅值相等、相位相差90°,产生高增益圆极化辐射。同时,双寄生贴片还引入了一种背腔缝隙耦合振子圆极化辐射模式,扩宽了天线高增益圆极化辐射带宽。在此基础上,设计了一款2×2单元顺序旋转馈电的SIC圆极化阵列天线。阵列天线采用双层基片集成波导顺序相移馈电网络进行馈电,进一步增大了天线的圆极化带宽。综合考虑天线的-10 dB反射系数带宽、3 dB轴比带宽和3 dB增益带宽,测试结果表明,圆极化阵列天线的有效带宽为10.74-13.30 GHz(21.3%),在通带范围内最大增益为14.50 dBi。     

24 GHz active retrodirective antenna array

A 24 GHz active Van Atta planar antenna array proposed for increasing the vehicle radar echo in a vehicle collision avoidance system is designed and demonstrated. The antenna array contains two parallel linear sub-arrays. Each sub-array is composed of four receiving microstrip antennas, four transmitting microstrip antennas and four transistor amplifiers. At the angles of -40°<&thetas;<40°, except those very close to the specular direction (&thetas;=0°), the measured backscattering field levels of the fabricated array have variations <3 dB and are at least 10 dB higher than those of a metal plate of the same size     

一种宽频带方形槽圆极化天线设计

文中提出了一种加载微扰元素的新型宽频带圆极化方形槽天线,它由一个倒L 型微带馈电线、一个L 型枝节、一对矩形槽和一个方形槽地板组成。用这些缝隙槽和枝节作为微扰元素来调节天线表面电流分布,可以激 发出多个圆极化谐振模式,从而实现了宽频带圆极化辐射。为了验证其合理性,加工并测试了天线模型。测量结果 表明,实测小于-10 dB 的阻抗带宽为74. 9%,小于3 dB 的轴比带宽为84. 7%。此外,测量和仿真的峰值增益分别为 4. 88 dBi 和4. 86 dBi。因此,文中设计的圆极化方形槽天线具有宽的圆极化带宽特性。     

Probe radiation cancellation in wideband probe-fed microstriparrays

The dual probe-fed patch technique, which is used to suppress unwanted probe radiation in wideband probe-fed microstrip patches, is extended for the case of a balanced two-patch sub-array. To demonstrate this technique, two S-band microstrip arrays were fabricated: with and without the balanced two-patch sub-arrays. The balanced array showed a reduction in the cross-polarisation peak level by nearly 10 dB. The unwanted radiation is effectively suppressed (20 dB cross-polarisation isolation) over a bandwidth of greater than 6.3%     

Isolation enhancement for dual‐band MIMO antenna system using multiple slots loading technique

In this paper, a novel multiple slot loading technique is studied in detail for the isolation enhancement of the dual‐band MIMO antenna system. The proposed MIMO antenna design consists of the microstrip patch loaded with T‐shaped slots parallel to the non‐radiating edge of the patch. The frequency tuning could be achieved by varying the length of the T‐shape slot arm. The proposed MIMO antenna system is optimised for operation in WLAN and WiMAX applications. The isolation enhancement is achieved by providing simple multiple slots loaded in the ground plane between radiating elements. The length of the slots is λ/4 . The system is fabricated and tested using a vector network analyser and anechoic chamber. The reduction in mutual coupling up to ?29.16 dB and ?24.09 dB for the 2.4 GHz and 3.4 GHz, respectively, is achieved. The bandwidths are 62.3 MHz (3.33–3.39 GHz) and 55.5 MHz (2.37–2.42 GHz), respectively. The total gain obtained in this case is 1.8 dBi at 2.4 GHz and 1.2 dBi at 3.4 GHz, respectively. The dimensions of the proposed designed antenna are 70 mm × 60 mm × 1.6 mm. The results were also verified through mutual coupling parameters like envelope correlation coefficient (ECC) and channel capacity loss (CCL) at the desired frequencies.     

一种超宽带圆环缝隙天线设计

本文提出了一种基于双圆环缝隙结构的超宽带微带天线。天线的底层由接地面的2个圆环缝隙组成,圆环之间用 2条矩形切口连接,以增加环缝之间的耦合。通过改变缝隙的位置、大小及矩形切口的位置来实现超宽带。顶层由50 ? 开 路微带线耦合馈电,通过在传输线加载匹配枝节实现更好的阻抗匹配。天线大小为40mm?40mm,厚度为1.5mm。通过 仿真表明,该天线在2.98G-9.45G频带内S11参数小于-10dB,达到3.17倍频,满足超宽带天线的要求 。最后根据仿真参数 将天线加工成实物,测试结果与仿真结果吻合。