高增益宽带圆极化Vivaldi天线阵的设计

提出了一种由新型Vivaldi天线单元构成的22十字交叉圆极化天线阵。Vivaldi天线单元采用边缘渐变对拓的锯齿结构,提高了天线在4.7～7.0 GHz频带内的增益,其反射系数低于-10 dB的带宽为2.4～11.0 GHz,具有超宽带线极化特性。圆极化天线阵测量结果显示,在4.5～7.0 GHz频带范围内,其轴比均低于3 dB,且整个频带范围内增益达11～13 dBi。     

A new double L-shaped multiband patch antenna on a polymer resin material substrate

The design and prototyping of a new double L-shaped patch antenna on substrate of available low cost polymer resin composite material is presented. The designed microstrip line fed compact antenna consists of a planar double L-shaped slotted radiating patch, 1.6 mm thick substrate and ground plane. The proposed small antenna was designed and analyzed using a finite-element method-based, commercially available, high frequency structure simulator, and fabricated on a printed circuit board. The measured ?10 dB return loss bandwidths were 220 MHz and 650 MHz at 4.85 GHz and 8.10 GHz center frequencies. The corresponding symmetric and almost steady radiation patterns have peak gains of 7.6 dBi and 4.1 dBi, making the proposed antenna suitable for C and × band wireless applications, especially for WLANs, mobiles and satellites. The radiation efficiency, input impedance and current distribution of the proposed antenna were also analyzed.     

一种基于开口谐振环的高增益端射天线设计

基于开口谐振环(split-ring resonator, SRR)奇异的电磁特性, 设计并制备了一种覆盖C和X波段的高增益SRR-Vivaldi端射天线. 采用等效分析方法对SRR结构谐振特性进行了研究, 并将其应用于传统Vivaldi天线指数渐变槽线前方, 使SRR结构形成特殊谐振能力的引向器, 将天线表面电流集中于端射方向, 在保证天线尺寸和带宽不变的前提下, 实现了天线增益的有效提升. 仿真和测试结果表明, 新型SRR-Vivaldi天线在C波段增益平均提高75.44%, xoy面和xoz面半功率波束宽度都缩减20°以上; 在X波段增益平均提高24.46%, xoz面半功率波束宽度大约缩减25°. 该结构具有低成本、设计简单、便于加工、利于共形等优点, 为端射天线提高增益和增强定向性提供了新思路.     

W波段基片集成波导缝隙阵天线的研究

介绍了一种低成本高效率的W波段4×4基片集成波导(SIW)缝隙阵天线。天线阵为双层结构,上层为辐射层,采用宽边纵向偏移缝隙驻波阵,可以实现高的辐射功率,下层为馈电层,采用SIW串联缝隙馈电方式,减小了传统功分网络带来的传输损耗和实现难度。对天线阵进行了优化设计,采用标准低成本PCB工艺制作了天线阵实物样品并进行测试。测试结果与仿真结果吻合较好,天线阵在94 GHz时,最大增益为16.8 dB,反射系数-30.1 dB,-10 dB带宽为92.6~96 GHz,副瓣电平19.5 dB,天线阵口径效率为83%。     

Circular polarized electronically-controlled antenna array based on CRLH-TL

In this paper, a circular polarized electronically-controlled scanning microstrip antenna array is designed, which is based on composite right left-handed transmission line (CRLH TL) and is realized by varactor diodes. Proposed electronically-controlled antenna arrays till now are always linear-polarized as the axial ratio (AR) may be spoiled by the DC feed line, especially in the CRLH TL based case. A more separated CRLH TL integrated with active lumped elements is utilized to solve the problem. The antenna array is composed of the CRLH microstrip transmission line structure and circular polarized microstrip antenna. The direction of the main lobe varies from ?1° to ?20 ° by continuously modifying the varactor diodes bias voltages from 0 to 20 V with 5 V as a step. The AR remains below 3 dB in the scanning range. The simulation and experimental results show a good consistence.     

Performance enhancement of the power penalty in DWDM FSO communication using DPPM and OOK modulation

This paper presents the design and performance enhancement of the power penalty (PP) in a dense wavelength division multiplexing based on free space optical communication (FSOC) link using digital pulse position modulation (DPPM) and on–off keying (OOK) modulation. Such a system has a high performance, low cost, robust and power efficient, reliable, excessive flexibility, and higher data rate for access networks. The system performance is evaluated for an 8-channel wavelength-division-multiplexing for hybrid fiber FSOC system at 2.5 Gbps on widely accepted modulation schemes under various atmospheric turbulence (AT) regimes conditions. The performance of system is introduced in terms of PP, bit-error rate (BER), transmission distance and the average received optical power. The numerical results shows that the improvement of the PP using DPPM modulation of 0.2–3.0 dB for weak turbulence (WT) regimes for BER of 10^?6 and above 20, 25 dB for strong turbulence (ST) regimes are reported for BER of 10^?6 and 10^?9, as respectively (depending on the AT level). Further, we develop of improvement the PP caused by multiple-access interference about 6.686 dB which is predicted for target BER of 10^?9 in WT and 1 dB at target BER of 10^?6 in ST when the 8 user are active on the system of optical network units. Additionally, the optical power budget and margin losses of a system are calculated with different link length. The proposed approach of DPPM merges superiority with higher enhancement of PP about 0.8 dB for BER equal 10^?9 at FSO link length l_fso?=?2000 m compared to OOK at 1 dB for WT. An improvement of 2 dB is observed using the DPPM scheme over an OOK due to capability of detect pulses under background noise conditions with increased receiver sensitivity.     

馈电损耗及高辐射效率微带天线阵研究

 根据串、并馈电微带天线阵列结构,建立了各自等效参数模型,定量分析了微带馈电网络功率损耗对微带天线阵列增益的影响,借助微带线和同轴电缆组成的低损耗混合馈电网络,采用串并馈电方式,完成了C波段4×24元高效率微带天线阵的设计。实测天线阵的各项指标均优于设计要求,其中阵列增益达到25.4 dB,实现了64.5%的辐射效率,较相同阵元数目的微带串馈列实测增益提高1.1 dB,与等效参数理论计算结果很好地吻合。     

抑制地面反射影响的高功率微波辐射场测量方法

在对空气-地面分层媒质中微波传播与反射理论分析的基础上,研究了地面反射对测点处不同垂直高度电场分布的影响,推导得到了电场分布随垂直高度变化曲线的振荡周期理论计算公式,针对高功率微波源总功率测量,提出了一种双天线阵列抑制地面反射影响的高功率微波辐射场测量方法,通过数值计算、低功率连续波实验、大功率短脉冲实验等进一步验证了理论公式的正确性,以及双天线阵列抑制地面反射影响方法的可行性。结果表明,与单接收天线相比,双天线阵列法可将地面反射影响由原有的4dB降低至0.6dB以下,从而有效减小了高功率微波辐射场的测量不确定度,为高功率微波源总功率准确测量奠定了基础。     

Photonic generation of high-purity 60 GHz millimeter-wave signal requiring only 10 GHz radio frequency local oscillator

A novel approach to generate 60 GHz millimeter-wave from a 10 GHz radio frequency signal using an integrated nested DD-MZM without optical filter is proposed and demonstrated. The simulation results show that the generated frequency sextupling optical mm-wave has high purity with an OSSR exceeding 29 dB and a RFSSR of 25 dB, which is consistent with the theoretical analysis. Besides, a RoF link model is established to investigate the transmission performance. The eye diagram keeps clear even when the optical mm-wave is transmitted over 60 km and the power penalty is about 0.4 dB after fiber transmission of 50 km.     

宽带Ka波段平面反射阵列天线设计

平面反射阵列天线的发展受到了带宽与功率容量两方面限制。为此,本文首先基于多谐振技术提出了一种新型平面反射阵列单元结构,相比于传统单元,所提出单元结构具有功率容量高、剖面低且相移曲线线性度好的特点。其次利用所提出单元,通过优化阵面特性在Ka波段设计了包含20×20个单元的平面反射阵列天线。最后利用电磁仿真软件进行模拟计算,结果显示在中心频点35 GHz处,天线峰值增益为27.58 dBi,口径效率为52.33%,副瓣小于?16.08 dB,并且在30.41～39.64 GHz频率范围内（相对带宽26.37%）天线增益跌落小于3 dB,并且所设计平面反射阵列天线最大功率容量可以达到 13.99 MW,功率密度为218.54 W/mm2。     

3圈48单元高功率径向线螺旋阵列天线研究

从理论、模拟和实验等角度详细研究了高功率径向线螺旋阵列天线。从该阵列天线的设计思想出发,提出并设计了中心频率为4.0 GHz的3圈48单元高功率径向线螺旋阵列天线,特别提出了螺旋单元天线的L型电磁组合耦合馈电,并对阵列天线进行了模拟和实验两方面的验证。实验结果表明,在3.6~4.1GHz的范围内,天线驻波比小于1.4,增益大于22.9 dB,口径效率大于65%。     

高功率双层径向线螺旋阵列天线实验研究

 介绍了高功率双层径向线螺旋阵列天线的模拟优化结果，对按照优化结构尺寸加工的阵列天线进行了实验研究。在实验中，设计了用于连接标准接口和天线输入口的阻抗变换器，对阵列天线辐射特性的测量采用了标准线极化天线比较法。实验结果表明：在3.8～4.2 GHz的频率范围内天线增益大于19.7 dB，口径效率大于42%，天线轴比小于4 dB，驻波系数小于1.6；实验结果与数值计算结果基本一致。     

A High-gain Wideband Antenna with Double Fabry-perot Cavities

A high-gain wideband antenna, using the electromagnetic resonances of double Fabry-Perot (F-P) cavities, is proposed. The two cavities are excited by a patch antenna placed in the cavities on top of the ground plane. One of the double F-P cavities is formed by a ground plane and a single metallic strips array, and the other consists of the patch and the metallic strips array. The two F-P cavities have different resonance points which yield the frequency bandwidth of 7% between 13.0 and 14 GHz with S₁₁ ≤ 10 dB, meanwhile, in this frequency region high gain is also obtained. Moreover, the center frequency and bandwidth could be adjusted by changing the cavity length. The high-gain wideband antenna was manufactured and measured. The measured VSWR is less than 2 from 13.3 GHz to 15.2 GHz, the measured gain is 13.5 dB at 13.5 GHz. In addition to that, a considerable improvement of 7 dB in terms of gain is obtained when compared to the same antenna without metallic strips.     

Electromagnetic coupling reduction in dual-band microstrip antenna array using ultra-compact single-negative electric metamaterials for MIMO application

In this paper, an ultra-compact single negative(SNG) electric waveguided metamaterial(WG-MTM) is first investigated and used to reduce the mutual coupling in E H planes of a dual-band microstrip antenna array. The proposed SNG electric WG-MTM unit cell is designed by etching two different symmetrical spiral lines on the ground, and has two stopbands operating at 1.86 GHz and 2.40 GHz. The circuit size is very compact, which is only λ_0/33.6 ×λ_0/15.1(where λ_0 is the wavelength at 1.86 GHz in free space). Taking advantage of the dual-stopband property of the proposed SNG electric WG-MTM, a dual-band microstrip antenna array operating at 1.86 GHz and 2.40 GHz with very low mutual coupling is designed by embedding a cross shaped array of the proposed SNG electric WG-MTM. The measured and simulated results of the designed dual-band antenna array are in good agreement with each other, indicating that the mutual coupling of the fabricated dual-band antenna array realizes 9.8/11.1 d B reductions in the H plane, 8.5/7.9 d B reductions in the E plane at1.86 GHz and 2.40 GHz, respectively. Besides, the distance of the antenna elements in the array is only 0.35 λ_0(where λ_0 is the wavelength at 1.86 GHz in free space). The proposed strategy is used for the first time to reduce the mutual coupling in E H planes of the dual-band microstrip antenna array by using ultra-compact SNG electric WG-MTM.     

A compact square loop patch antenna on high dielectric ceramic–PTFE composite material

Design and prototyping of a low profile, compact square loop microstrip line fed miniature patch antenna on 1.9 mm thick ceramic-polytetrafluoroethylene (PTFE) high dielectric composite material substrate is presented in this paper. The measured ?10 dB return loss bandwidths of the antenna are 300 MHz (0.75–1.05 GHz) and 800 MHz (2.4–3.2 GHz) with 3.4 dBi, 8.86 dBi and 7.42 dBi at 900 MHz, 2.5 GHz and 3.0 GHz, respectively. The measured symmetric and almost stable radiation pattern makes the proposed antenna suitable for RFID, GSM, ZIGBEE, WBAN, LR-WPAN etc. integrated mobile devices.     

Complementary electric-LC resonator antenna for WLAN applications

In this paper, a metamaterial antenna based on complementary electric-LC (CELC) resonator is proposed. The antenna consists of slot-loaded ELC on the ground plane as the main antennas radiating element and excited by a microstrip line. The CELC resonator is characterized by single-negative magnetic moment excited by coupling between the microstrip transmission line and slot-loaded CELC. The peak realized gain and efficiency of 2.63 dB and 86 % are obtained, respectively, at resonance frequency. Simulation and measurement results are presented to validate the design. The antenna is suitable for WLAN applications (2.39–2.48 GHz).     

X波段高功率宽频带双螺旋反射阵列天线的设计

为了提升高功率微波辐射天线的带宽,提出并设计了一种X波段高功率圆极化反射阵列天线,该天线采用喇叭天线作为馈源,阵列天线单元由可旋转金属双螺旋线构成,通过旋转螺旋线可以实现360°的相位补偿,同时反射损耗极小。设计了15×15矩形栅格螺旋反射阵列天线,全波仿真结果表明:该口径为315 mm的阵列天线在中心频点9.3 GHz下,增益为28 dB,轴比为0.53 dB,口径效率为52.6%;在8.5~10.9 GHz的频带范围内增益大于26.8 dB,轴比小于1.14 dB,1 dB增益带宽和40%以上口径效率带宽均大于21%;在真空中所能承受的最大功率约为207 MW。     

Efficacy of a wideband flexible antenna on a multilayer polymeric nanocomposites Fe3O4-PDMS substrate for wearable applications

The recently introduced polymeric nanocomposites substrate layer technology is used in the design of a flexible antenna array for wearable applications. This new technology allows a considerable widening of the bandwidth of classical microstrip topologies. This means that a relatively wide band can be combined with a full ground plane in a very simple structure, which is an ideal combination in wearable applications. The wideband and flexible features enabled the antenna to mitigate body-detuning effects. The proposed antenna prototype consists of a 2 × 2 array of rectangular patch elements with dimensions of 70 × 70 × 4.2 mm³. The measurements are performed in free space, and on-body under bent conditions. The antenna working within the frequency band of 5 GHz–8.2 GHz, with a fractional impedance (FBW) bandwidth of 50.34%. The antenna demonstrates a maximum radiation efficiency of 60%, and 9.8 dB of realized gain. Since this antenna is intended for on body-centric wireless communication application, the specific absorption rate is evaluated when the antenna is placed on the right arm of a realistic human phantom. The performances and features of the proposed antenna paved the way for off-body connections in a WBAN and wearable applications including WiFi, telemedicine and Vehicle-to-Everything (V2X).     

An Inverter-Based,CMOS, Low-Power Optical Receiver Front-End

In this paper, a low-power optical receiver front-end which consists of a transimpedance amplifier (TIA) and three stages of limiting amplifier (LA) for 2.5 Gb/s applications is proposed in 0.18 µm CMOS technology. The proposed TIA benefits from a modified inverter structure, in which the input resistance is properly reduced due to the use of diode-connected transistors in comparison with conventional inverter circuit. Also, an active inductor is used in parallel with a diode-connected transistor at the output node, which provides a low output resistance, while it resonates with the load capacitance to extend the ?3 dB frequency bandwidth. Moreover, three stages of LAs are used to obtain extra gain, in which each LA cell uses active inductor load. However, HSPICE simulations for the proposed TIA circuit show a 42.24 dBΩ transimpedance gain, 1.96 GHz frequency bandwidth, 11.7 pA/√Hz input referred noise, and only 972 µW of power consumption at 1.5 V supply. Also, simulation results for the whole receiver system show a 75.6 dB gain, 1.7 GHz frequency bandwidth, and 6.54 mW of power consumption at 1.5 V supply. Finally, simulation results indicate that the proposed receiver system has good performances to be used as a low-power optical receiver front-end.     

基于纳观域碳纳米管的太赫兹波天线研究

基于碳纳米管独特的结构特点建立了以其为基础的Pocklington积分方程,并设计了一种全新的碳纳米管太赫兹(THz)波天线.数值仿真和理论计算结果表明,碳纳米管能够产生高频THz电磁辐射,半波长为60μm、半径为2.712nm的单壁碳纳米管偶极天线在-10dB反射系数以下可以实现2.5THz与7.6THz的双频带工作,带宽分别为8.4%与2.7%,由其构成的纳米管天线阵可以获得10.3dB的高增益特性.所得结果有助于在纳观域开展高频THz波辐射源及天线的研究与设计. 关键词： 太赫兹波 碳纳米管 天线 辐射源