一种新型极化可重构微带天线

利用互补开口谐振环(CSRR)结构提出了一种新型极化可重构微带天线。将CSRR 和一个PIN 二极管开关加载在天线的地板上,通过控制二极管开关的状态,可以实现左旋圆极化和线极化之间的切换,无需额外的偏置电路。利用仿真软件分析了CSRR 的尺寸和位置对天线圆极化特性的影响。所设计的天线工作在5. 8GHz 频段范围,测试结果与仿真结果吻合较好。实验结果表明,在圆极化状态下,中心频率5. 77GHz,-10dB 阻抗带宽约360MHz,最小轴比为1. 5dB,3dB 轴比带宽为80MHz;线极化状态下,中心频率5. 72GHz,-10dB 阻抗带宽约200MHz。天线增益均为6dB 左右,具有良好的方向性,可用于现代无线通信系统中。     

一种极化可重构的开口环缝微带天线

基于互补开口谐振环的结构设计了一种新型的极化可重构天线。与传统的180°对称开口谐振环不同的是采用90°夹角的开口结构,通过控制开口的状态,能够实现2. 6GHz 频率的左右圆极化和2.4GHz 线极化的转换。当天线左右开关状态不同的时候,天线的结构非对称,可将天线看做变形的开口谐振环,其能够实现圆极化;当天线左右开关都处于开的状态时,天线可以看做是双环缝微带天线,实现线极化。2.6GHz 的左右圆极化的3dB 轴比带宽为100MHz,-10dB 阻抗带宽2.20～2.80GHz(600MHz),2.4GHz 线极化的阻抗带宽是2.1～2.55GHz(450MHz),适用于无线移动通信。     

一款圆-线极化变换天线罩的设计与应用

利用对称和反对称圆极化天线对构造了一种圆-线极化调制模块,并将其作为模块单元,设计了一种具有极化变换功能的天线罩。调制模块中的对称圆极化天线对实现同旋向圆极化变换,反对称圆极化天线对则实现异旋向圆极化变换。利用左、右旋向极化波合成线极化波,实现圆-线的转换功能。仿真与测量结果表明,天线罩在工作频段(中心频率5.8 GHz)具有较好的透波性能和极化变换性能,透射系数大于-3 dB,带宽达到900 MHz。该天线罩应用于天线的接收端,并设计了线极化接收天线进行实验验证。测量对比表明,天线罩可以有效增强接收信号的能力。     

一种双频双圆极化共面波导馈电缝隙天线

一种新型加载两个开口环形接地导带的双频共面波导（CPW）馈电缝隙天线,被提出来实现双旋向圆极化辐射。从天线信号带伸入槽隙的水平矩形调谐短截线用于改善频带内的阻抗和轴比。对天线进行仿真和实物测量。实验结果表明,该天线的10 dB 回波损耗阻抗带宽分别是,在1.55 GHz 频段为27.69％（1.4~1.85 GHz）,在2.55 GHz频段为26.17％（2.075~2.7 GHz）。在1.55 GHz的频段和2.55 GHz频段所测量的3 dB轴比带宽分别是20.51％（1.4~1.72 GHz）和13.44％（2.36~2.7 GHz）。其辐射极化方向分别是低频段右旋圆极化和高频段左旋圆极化,天线在两频段内的峰值增益分别是3.69 dB和3.81 dB。实物测试结果与仿真结果基本吻合。     

一种圆极化可重构微带天线的设计

对圆弧寄生单元微带天线进行了理论分析,设计了一种圆极化可重构的圆形微带天线。该天线通过电控开关控制圆弧寄生单元的状态,从而实现左、右旋圆极化的转换。并利用仿真软件HFSS13.0对天线的特性进行了仿真验证。结果表明,在天线回波损耗S11<–10 dB时,该天线在频段为2.38~2.51 GHz,3 dB轴比带宽为30 MHz,且最大辐射方向处正交极化差达20 dB以上。天线的整体辐射性能良好,且结构简单易于实现,很容易在低频段匹配到50,能够满足WLAN在2.4 GHz频段的要求。     

一种圆极化可重构微带天线的设计

对圆弧寄生单元微带天线进行了理论分析,设计了一种圆极化可重构的圆形微带天线。该天线通过电控开关控制圆弧寄生单元的状态,从而实现左、右旋圆极化的转换。并利用仿真软件HFSS13.0对天线的特性进行了仿真验证。结果表明,在天线回波损耗S11<–10 dB时,该天线在频段为2.38~2.51 GHz,3 dB轴比带宽为30 MHz,且最大辐射方向处正交极化差达20 dB以上。天线的整体辐射性能良好,且结构简单易于实现,很容易在低频段匹配到50,能够满足WLAN在2.4 GHz频段的要求。     

卫星导航终端的小型化方形四臂缝隙螺旋天线

设计了一种卫星导航终端的小型化四臂缝隙螺旋天线。天线为方形柱状结构,四条缝隙螺旋臂印制在介质基板外表面,馈电网络印制于介质基板内表面进行耦合馈电;馈电网络为弯折的微带线结构,并延伸至天线底部实现同轴馈电。天线尺寸为23.6 mm×23.6 mm×53.0 mm,实测结果表明,|S11 |≤-10 dB 的阻抗带宽为7.63%(1.512~1.632 GHz),轴比≤3 dB 的圆极化带宽为3.35% (1.556~1.609 GHz),在北斗B1频段中心频率(1.561 GHz)和GPS L1 频段中心频率(1.575 GHz)处增益分别达到4.31 dBi 和4.84 dBi。该天线采用缝隙螺旋结构,并通过简易的馈电网络耦合馈电实现螺旋天线的圆极化,结构小巧简单,适合批量生产,可应用于卫星导航系统终端设备。     

一款高效率频率选择表面圆-线极化转换器

为了实现圆极化波到线极化波的高效率转换,提出了一种由两种圆极化波调制模块构成的复合结构单元频率选择表面圆-线极化转换器。采用天线-馈线-天线结构设计了左-左旋和左-右旋两种圆极化调制模,并将二者组合形成具有左旋圆极化波接收、左旋和右旋圆极化波同幅同相辐射功能的圆-线极化转换器。仿真与测试结果表明,该极化转换器能够将入射左旋极化波转换成线极化波,3 dB传输系数相对带宽大于19.8%,工作带宽内的圆-线极化转换率大于0.99。该极化转换器具有插入损耗低、设计原理易于推广等优势。     

卫星导航终端小型化开口缝隙螺旋天线

研究了一种小型化卫星导航终端开口缝隙螺旋天线。天线主体为四条宽度渐变的开口缝隙螺旋臂,蚀刻在外表面覆铜的介质基板围成的方型结构上,由印制于介质基板内表面的微带线结构馈电网络进行耦合馈电;馈电网络由底面回形结构和侧面逐渐向上变宽的折形结构组成,使用同轴线接头在天线底部对其馈电。天线总体尺寸为26 mm×26 mm×29 mm,实测结果表明：|S₁₁|≤-10 dB的阻抗带宽为7.88%(1.523 GHz～1.648 GHz),轴比≤3 dB的圆极化带宽为20.26%(1.490 GHz～1.826 GHz),在北斗B1频段中心频率(1.561 GHz)、GPS L1频段中心频率(1.575 GHz)和GLONASS L1频段中心频率(1.602 GHz)处增益分别达到3.33 dBi、3.18 dBi和2.79 dBi。该天线采用开口缝隙螺旋结构,通过简单的馈电网络串行耦合馈电实现天线的圆极化,在较小尺寸情况下实现了较宽的带宽和较好的增益。     

Ka频段宽带圆极化微带天线

面向Ka频段高通量卫星对天线的需求,设计了一种Ka频段宽带圆极化微带天线. 天线单元主要由圆形辐射贴片和缝隙耦合馈电结构组成,通过两个类T形缝隙结合实现宽带圆极化. 天线仅有三层金属层,结构简单. 仿真结果显示,天线单元的相对阻抗带宽为31.5%（25.1～34.5 GHz）,相对3 dB轴比带宽为20.3%（26.5～32.5 GHz）. 由于单元尺寸较小,不便于对其性能进行验证,因此利用该天线单元组成2×2天线阵列,并进行加工测试. 仿真与试验结果表明,天线阵列阻抗带宽以及3 dB轴比带宽可以覆盖25.6～33.1 GHz频率范围,实测结果与仿真结果一致性良好.     

Polarization‐Diversity Cross‐Shaped Patch Antenna for Satellite‐DMB Systems

A small reconfigurable patch antenna is proposed to achieve polarization diversity for digital multimedia broadcasting systems at 2.6 GHz. To obtain polarization diversity, a pair of on‐slit PIN diodes is inserted in each diagonal of a cross‐shaped patch. Thus, four PIN‐diodes on these slits are utilized to change the connection of the slits and thus achieve polarization. Bias circuits for the diodes are allocated in the cutting corner of the cross‐shaped patch to minimize the antenna size. The antenna produces left‐hand circular polarization, right‐hand circular polarization, or linear polarization, depending on the PIN‐diode status. Analysis of circular polarization operation is explicated. Measurements show a gain of about 1.5 dB, a cross polarization of about ?20 dB, and an axial ratio of about 2.5 dB.     

A Novel Single-Feed Circular Microstrip Antenna With Reconfigurable Polarization Capability

A single-feed circular microstrip antenna with reconfigurable polarization capability is proposed. This antenna has a simple structure, which consists of a radiating circular patch, five switches (PIN diode), three matching stubs, and a 50 microstrip feed line. It can be switched between 4 different states: two states (low-frequency and high-frequency) for linear polarization (LP), one state for left hand circular polarization (LHCP) and one for right hand circular polarization (RHCP) by controlling the bias voltage of two PIN diodes. At the same time, three switchable matching stubs are used for matching every polarization state. Simulation results and experimental results show that the proposed antenna demonstrates a low cross polarization level, good impedance bandwidth, and a very good axial ratio in the circularly polarized states.     

Reconfigurable Microstrip Patch Antenna with Switchable Polarization

A novel reconfigurable microstrip patch antenna with frequency and polarization diversities is proposed. A U‐slot is incorporated into a square patch, and a PIN diode is utilized to switch the slot on and off, which realizes the frequency diversity characteristic. The polarization diversities among linear polarization (LP), right‐hand circular polarization (RHCP), and left‐hand circular polarization (LHCP) are also obtained by switching three PIN diodes on the slot and the truncating corners of a square patch on and off. The antenna design and experimental results are presented.     

Multi band multi polarized reconfigurable circularly polarized monopole antenna with simple biasing network

Design of a reconfigurable multiband multi polarized monopole antenna with simple bias circuit is presented. The proposed antenna consists of simple radiating truncated rectangular patch with a cross-shaped slit and a ground plane embedded with L-shaped slit. The antenna produces two separate impedance bandwidth with three senses of polarization namely right hand circular polarization, left hand circular polarization and linear polarization. PIN diode is used to reconfigure the L-shape slit in the ground plane. The antenna generates dual band behavior with multiple circularly and linearly polarized bands. With OFF state of the diode, the impedance bandwidth of the antenna is 10.22% and 83.43% from 3.99 GHz to 4.42 GHz and 5.84 GHz to 14.20 GHz, respectively, while 3-dB axial ratio bandwidths are 9.83% and 13.73% from 5.79 GHz to 6.39 GHz and 8.49 GHz to 9.74 GHz, respectively. In the ON state, antenna also shows the dual band behavior with an impedance bandwidth of 49.10% and 21.31% from 7.20 GHz to 11.04 GHz and 12.66 GHz to 15.37 GHz, respectively, while 3-dB axial ratio bandwidth of 6.49%, 8.45% and 2.0% from 7.90 GHz to 8.43 GHz, 10.08 GHz to 10.97 GHz and 12.87 GHz to 13.13 GHz, respectively.     

低剖面极化可重构超表面天线

提出了一种低剖面极化可重构超表面天线. 天线由三部分组成:3×4金属矩形贴片阵列组成的超表面覆层、缝隙耦合天线和直流偏置控制电路. 电路包括8个PIN二极管开关组成的四对开关（PIN1,PIN2,PIN3和PIN4）和直流偏置线,通过控制上述四对PIN开关的工作状态,天线可以在线极化、左旋圆极化和右旋圆极化三种极化状态之间转换. 对天线样机进行了加工并给出了实测反射系数、实际增益、轴比和归一化辐射方向图,结果表明:天线在不同工作状态下的共享工作频带为4～5.4 GHz,?10 dB阻抗带宽为29.8%;3 dB轴比带宽为8.3%,从4.6～5 GHz;各状态下的实测增益相差不大,其平均增益都大于5 dBi. 仿真结果与实测结果吻合良好.     

A quad-polarization and frequency reconfigurable square ring slot loaded microstrip patch antenna for WLAN applications

In this paper, a novel polarization and frequency reconfigurable microstrip patch antenna which can switch between vertical and horizontal linear polarizations, left hand and right hand circular polarizations at two WLAN frequencies is presented. The orthogonal linear polarizations are achieved by a square microstrip patch antenna fed by two ports on adjacent sides. By introducing corner truncated perturbation on opposite corners of right diagonal of a square patch, orthogonal circular polarizations are achieved. By controlling the bias voltage of two PIN diodes loaded at perturbed corners, a single structure can achieve quad polarization states. Furthermore, by superimposing a square ring slot into the corner truncated square patch and incorporating four PIN diodes into the square ring slot, quad polarization are achieved at dual frequencies. Simulated and measured results indicate that the antenna can achieve quad polarization at two WLAN bands (5.15–5.35 GHz) and (5.75–5.85 GHz). The proposed antenna is simple, has low profile and can be scaled easily for other frequencies.     

一种基于电调移相器的可重构天线

设计并实现了一种基于反射式移相器的极化可重构天线。该天线使用一对交叉摆放的领结型振子作为辐射单元,并在馈电网络中通过两路移相器调整双馈端口间的相位差实现线极化、左旋圆极化和右旋圆极化模式之间的切换。通过加载匹配枝节的方法扩展了反射式移相器的移相范围,提高了移相器的移相精度,降低了天线圆极化模式带内的轴比。所设计天线的中心频率为5.4 GHz,在线极化模式下10 dB 阻抗带宽为990 MHz,在圆极化模式下10 dB 阻抗带宽分别为760 MHz 和850 MHz,3 dB 轴比带宽分别为510 MHz和480 MHz。该天线在频带内具有稳定的波束方向图,其平均增益为5.3 dB,并且具有27 dB 的主极化-交叉极化隔离。最终的实测结果与仿真结果基本一致,表明该天线具有良好的性能。     

一种新型环状宽带圆极化微带天线设计

本文设计了一种新型的环状开缝的宽带圆极化微带贴片天线,通过等幅度90°相位差的L型探针馈电。通过在环状贴片上开槽可以有效的增加轴比和阻抗带宽。传统的圆极化天线带宽受限于阻抗、轴比和增益的公共带宽,本文提出的天线得到有效带宽从1.1GHz到1.9GHz,相对带宽达到了53%以上,频带覆盖了GPS、GALILEO、COMPASS、GLONASS四大导航系统。该天线性能较好,加工调试简便,在卫星导航等领域具有广阔的应用前景。