On a novel non-smooth output feedback controller for the attitude control of a small float satellite antenna

A novel non-smooth controller of the second order double integrator system with a bounded disturbance is proposed,which stability is proved and which disturbance rejection capability is analyzed by MATLAB simulation experiments. The novel non-smooth output feedback controller and tracking differentiator are applied to control the azimuth servo systemof the small floating satellite antenna. The MATLAB simulation and hardware in the loop simulation experiments are conducted. The experiment results validate that the non-smooth output feedback controller with stronger surge and sudden disturbance rejection capability can realize the stable azimuth servo control of the small floating antenna to ensure the communication between the target satellite and the antenna with high quality.

基于非福斯特电路的缝隙电小天线研究

无源电小天线遵循Bode-Fano约束准则,体积、带宽与效率互相构成约束关系,难以在小型化的同时实现宽频带。而通过非福斯特电路等效的负阻抗元件可以有效抵消电小天线的大电抗,从而突破上述准则的限制,提高天线的辐射性能。文中选用蝶形缝隙天线作为非福斯特电路匹配的对象,将电路焊接在天线的背面进行一体化设计,使有源天线的集成度更高。并通过仿真分析有源蝶形天线一体化后的馈电网络,比较了不同馈电位置与馈电方式对天线性能的影响。最终优化后的有源缝隙天线在250 MHz~850 MHz的工作频段内S 11参数均小于-10 dB,在谐振频率达到-24 dB时,相对带宽对比匹配前提升了109%,增益提升了5.8 dB。对该有源天线进行了加工测试,实测结果与仿真结果基本一致。

High Performance Electrically Small Huygens Rectennas Enable Wirelessly Powered Internet of Things Sensing Applications:A Review

Far-field wireless power transfer(WPT)is a major breakthrough technology that will enable the many anticipated ubiquitous Internet of Things(IoT)applications associated with fifth generation(5G),sixth generation(6G),and beyond wireless ecosystems.Rectennas,which are the combination of rectifying circuits and antennas,are the most critical components in far-field WPT systems.However,compact application devices require even smaller integrated rectennas that simultaneously have large electromagnetic wave capture capabilities,high alternating current(AC)-to-direct current(DC)(AC-to-DC)conversion efficiencies,and facilitate a multifunctional wireless performance.This paper reviews various rectenna miniaturization techniques such as meandered planar inverted-F antenna(PIFA)rectennas;miniaturized monopole-and dipole-based rectennas;fractal loop and patch rectennas;dielectric-loaded rectennas;and electrically small near-field resonant parasitic rectennas.Their performance characteristics are summarized and then compared with our previously developed electrically small Huygens rectennas that are proven to be more suitable for IoT applications.They have been tailored,for example,to achieve batteryfree IoT sensors as is demonstrated in this paper.Battery-free,wirelessly powered devices are smaller and lighter in weight in comparison to battery-powered devices.Moreover,they are environmentally friendly and,hence,have a significant societal benefit.A series of high-performance electrically small Huygens rectennas are presented including Huygens linearly-polarized(HLP)and circularly-polarized(HCP)rectennas;wirelessly powered IoT sensors based on these designs;and a dual-functional HLP rectenna and antenna system.Finally,two linear uniform HLP rectenna array systems are considered for significantly larger wireless power capture.Example arrays illustrate how they can be integrated advantageously with DC or radio frequency(RF)power-combining schemes for practical IoT applications.

Two Types of Compact UHF Antennas for Partial Discharge Measurement

To investigate the partial discharge (PD) online monitoring of transformers by ultra-high-frequency (UHF) approaches,high-qualified UHF antennas are focused on as one key technique. The size of UHF sensor used for PD UHF online monitoring in transformer is excessively large,therefore,it is not convenient for internal installation of transformer. Two types of compact UHF antennas with small sizes,a Hilbert fractal antenna and a small loop antenna are presented. PD experiments of three typically artificial insulation defects are executed and both antennas are used for PD measurement. The spectra of power via frequency of detected PD signals are analyzed and compared. The experimental results show that the Hilbert fractal antenna and small loop antenna are qualified for PD online UHF monitoring.

Design and Analysis of a Compact Band Notch UWB Antenna for Body Area Network

This paper presents the design of a small printed ultra wideband antenna with Band Notched characteristics. Both the free space and on-body performances of this antenna were investigated through simulation. The newly designed UWB antenna is more revised small form factor sized, with the ability to avoid interference caused by WLAN (5.15 - 5.825 GHz) and WiMAX (5.25 - 5.85 GHz) systems with a band notch. The return loss response, gain, radiation pattern on free space of the antenna were investigated. After that, the on-body performances were tested on 3-layer human body model with radiation pattern, gain, return loss, and efficiency at 3.5, 5.7, 8, 10 GHz and all the results were compared with free space results. As the on-body performance was very good, the proposed antenna will be suitable to be used for multi-purpose medical applications and sports performance monitoring.

New Traveling-Wave Antenna Resonating at 6 GHz Based on Artificial Transmission Line Metamaterial Structures for RF Portable Devices

Design of new metamaterial (MTM) traveling-wave antenna with “d-formed” left-handed structure is proposed. The proposed MTM structure is designed at a height of 0.8 mm from the ground plane with almost 2 GHz bandwidth. The most interesting feature of the design is the ability of enhancing the gain and total efficiency of the antenna without negative effects of the other important parameters like bandwidth. By using the “d-shaped” MTM structure and printed planar technique, the bandwidth of the MTM traveling-wave antenna is significantly increased at a resonant frequency of 6 GHz and also a foot print area reduction of the antenna structure is provided. Antenna size is 7.2 × 5 × 0.8 mm3. The proposed antenna is suitable for RF portable devices operating at 6 GHz.

空间低频射电天文天线材质-观测性能分析

15MHz以下的射电天文信号由于受到电离层的阻挡只能通过空间卫星平台进行观测。采用空间展开的电小天线是目前普遍的做法。就电小天线的材质-接收性能方面进行分析,构建了基于材质磁导率、电导率对后端接收机噪声影响模型。通过计算结果比对和就天线材质空间展开难易程度的综合考虑,归纳总结了不同材质对空间低频射电天文观测噪声影响以及展开难度,为新天线的研制提供了数据依据。该项工作将为下一步L1点空间天气监测卫星中的太阳射电观测载荷提供技术支持。

基于开口谐振环的三层高效电小天线设计

为提高电小天线的辐射效率,提出一款基于开口谐振环结构的3层小型化环形天线。天线的3层结构分为中间的馈电层和两侧的耦合层,采用电磁耦合方法实现激励。在馈电层设计了一种倒“山”形匹配网络,弥补了传统耦合馈电SRR天线存在部分反向电流的缺陷;通过加载耦合环结构实现强磁耦合,降低天线的金属损耗;在耦合层与馈电层间设计支柱固定的空气间隙,有效地降低介质损耗,从而提高辐射效率。采用电磁仿真软件对天线进行设计,并分析了介质基板对天线性能的影响。对设计的天线进行了实物研制与测试。结果表明,实测结果与仿真结果基本吻合,天线的中心频率为50.03 MHz,电尺寸为0.045λ_(0)×0.045λ_(0)×0.01λ_(0)(λ_(0)为工作波长),其在水平面内具有良好的全向性,辐射效率大于41%。

高频地波雷达电小多频天线设计

本文通过顶部加载多个平面阿基米德螺旋线圈得到具有多频功能的电小地波雷达天线。采用CST软件设计多个平面螺旋线圈的尺寸参数,所设计的天线具有3.7 MHz、6.5 MHz和8 MHz三个频点,天线总高度相对3.7 MHz的天线电长度仅为0.077λ,属于电小天线。采用Dixon优化算法实现多频点的阻抗匹配,在匹配元件数较少前提下保证各个频点带宽大于60 kHz,满足了设计要求。天线实测结果和CST仿真结果吻合,说明了本文方法在实现高频地波雷达天线小型化和多频化方面具有可行性和有效性。

一种利用非福斯特匹配电路改进月面低频薄膜天线的设计方案

月面低频射电天文观测具有巨大科学发现的潜力,有望揭开宇宙黑暗和黎明时代的秘密。针对月球背面低频观测提出一种新的设计方案,利用非福斯特匹配电路,大大减小了天线的物理尺寸,使之结构轻巧便于月面部署。首先设计了一种轻巧、宽温度范围、易延展、可折叠、便于在月面部署的电小薄膜天线,具有良好的全向性,在4~8 MHz增益小于1.92 dB,半波束宽度大于83°;然后利用加载非福斯特匹配电路改善其阻抗性能,将天线的电抗从-985.3Ω优化到小于-16.5Ω;最后采用等效电路进行阻抗和噪声实测,噪声功率水平在绝大部分频率范围内小于-150 dBm,初步证实该方案的可行性。

一种加载可变电感的电小单极子天线设计

设计了一种加载可变电感的平面折叠单极子天线,首先针对方形单极子天线尺寸过大的缺点,对方形单极子使用开槽、引入弯曲折叠线来延长天线表面电流流动路径,成功降低了天线的工作频点,使其成为电小天线。然后针对天线在低频处输入阻抗虚部呈现容性的特点,对天线进行了感性加载来补偿低频处的容抗,使得天线的谐振点随引入的电感值不同而在一个较宽的频率范围内变化,实现宽频带工作。加载电感后,天线最低谐振频率为267 MHz,最小电尺寸为0.089λ,λ为工作频点对应波长。通过加载可变电感实现了106 MHz的变频带宽(|S11|≤-10 dB),电感加载为电小天线的宽频带工作提供了一种设计思路。

一种自动调谐高频车载电小环天线设计

针对短波通信天线难以在一套设备上实现宽频段工作且不便运输的问题,文中提出了一种适用于近垂直入射天波技术高频通信的自动调谐电小环天线。该天线安装在车辆顶部,主体由耦合环、辐射环及自动调谐控制单元等部分构成,引入两种不同调谐方法,并对两种匹配网络进行集成与自动控制,具有物理结构简单、携带方便且辐射效率较高等优点。仿真和测试结果表明,该环天线在3~30 MHz整个高频频段驻波比小于2,中心频率在25 MHz处的最大增益可达2.7 dBi,最大辐射方向为垂直方向,满足高频近垂直入射天波通信需求,是短波通信系统的重要组成部分。

面向5G应用的四元MIMO毫米波天线

为了有效缓解低频段频谱拥挤的现状,提出了一种用于5G通信的毫米波矩形微带天线。在偶极子宽带毫米波单元天线的基础上,设计了一种四元多输入多输出(MIMO)天线,天线尺寸为10.1 mm×12 mm×0.508 mm,工作频率为28 GHz,工作带宽为24~68.6 GHz,完全覆盖24.25~27.5 GHz和37~42.5 GHz的5G毫米波频谱范围,且每个单元天线单元端口之间的隔离度均低于-19 dB,可以保证天线的正常工作。

电小准各向同性扇形磁偶极子天线

本文提出了一种电小准各向同性扇形磁偶极子的设计方法 .利用微带贴片天线模式综合设计方法,研究由不对称边界条件原型磁偶极子演化成的扇形磁偶极子,发现不对称边界条件情况下可以同时实现电小天线设计和准各向同性辐射特性.通过推导解析设计闭式而确定天线关键参数,设计了圆心角为300°的扇形磁偶极子,分别采用“同轴线+扼流套筒”和“开槽同轴线”两种馈电方式进行激励和测量.结果表明:采用开槽同轴线激励的天线可以获得最均匀的总电场方向图,其最大不圆度低于6.7 dB,辐射效率为91.2%,最终实现的准各向同性扇形磁偶极子的电尺寸为R=0.156λ_(g)×0.056λ_(g)(k_(g)a=0.92),满足电小尺寸条件.

一种集总元件加载极端电小折叠单极子天线设计

针对无线通信等领域对电小天线的应用需求,设计了一种基于加载集总元件技术的极端电小折叠单极子天线结构。该天线在平面单极子天线的基础上,增加短路枝节拓展电流路径扩展带宽,采用集总元件加载技术,在辐射贴片上串联电阻元件增加输入电阻,并联电抗元件以改善输入电抗,实现了天线的极端电小特性。仿真表明,这种结构可以达到0.053λ×0.022λ×0.0008λ(94 mm×40 mm×1.5 mm,λ为低频170 MHz处的波长)的极端电小尺寸,电压驻波比(Voltage Standing Wave Ratio,VSWR)在170~910 MHz时小于2,具有超宽带特性,并在工作频带内天线都具有良好的全向辐射特性。仿真分析了350 MHz、550 MHz、750 MHz三个频点处的方向图,且对应增益分别能达到-28.8 dBi、-16.7 dBi、-10.4 dBi。加工制作了该极端电小天线模型,实验测试验证了该天线的电小特性和超宽带特性,且方向图和增益测试结果均与仿真结果吻合良好。

Ka频段大规模相控阵稀疏布阵算法设计与应用

针对大规模卫星通信相控阵天线在阵元受发射/接收组件、驱动放大器等布局限制条件下的稀疏布阵问题,提出了一种基于极限微扰法的随机稀疏布阵算法。通过极限微扰率和随机稀疏算法的迭代应用,能够较容易地收敛到目标稀疏率下的稀疏阵列分布,且能得到均匀的稀疏布阵结果,改善相控阵天线由于局部过热导致的散热困难的问题。基于此方法,对满阵为4096阵元的大规模相控阵天线进行了稀疏化设计,最终得到1552阵元的稀疏阵。仿真和实测结果显示通过该算法能获得较好的阵列方向图结果,在方位角0°~360°、俯仰角0°~60°范围内副瓣均低于-16 dB。

基于小孔径阵列天线的卫星导航多干扰抑制方法

为满足卫星导航领域抗多干扰的应用需求,提出基于小孔径阵列天线的卫星导航多干扰抑制方法,分析了天线极化孔径对静态方向图和抗干扰性能的影响、进行了基于小孔径阵列天线的空时、空频和多维域级联抗干扰算法设计,基于4阵元阵列天线系统进行了多干扰抑制的试验验证。测试结果表明,所采用的方法可有效抑制多干扰,具有较高的实际装备应用价值。

电磁波与天线课程“虚实结合”教学方法改革创新的思考

教学方法改革与创新是提高新工科课程教学质量的有力举措。针对新工科专业课程电磁波与天线课程理论性强、公式繁杂的特点,该文着眼提高课堂教学效果,激发学生学习动力,提出“虚实结合”的多元融合教学法。该文分析课程教学现状,探讨“虚实结合”教学方法改革与创新的途径,并对“虚实结合”的教学案例进行分析。教学实践表明,在“虚”的方面,引入Matlab和HFSS软件对抽象概念虚拟仿真,可以让电磁波的场特性形象化;在“实”的方面,采用小型化电磁场演示仪和微波试验箱,以实物形态在课堂演示,让“抽象难懂”的理论知识具体化,可有效推动学生理解和掌握电磁波从发射、传播到接收的全系统的知识,提高学生在电磁工程方面的实践创新能力,近几年学生也在国家和校级科技创新竞赛活动中取得优异的成绩。

330kV超高压GIS开关动作VFTO辐射电场的测量与分析

笔者对GIS断路器与隔离开关动作时所产生的VFTO辐射场进行了测量与分析。首先研制了一套基于光纤传输的VFTO辐射电场测量系统,并对该测量系统进行了标定实验,结果显示该测量系统具有响应频带宽、抗干扰能力强和传输距离远的特点。然后选取了典型的330 kV超高压GIS变电站,应用光纤测量系统对其开关正常动作时所引发的VFTO辐射场信号进行了测量。比较了断路器与隔离开关动作所产生的VFTO辐射场之间的差异,分析了差异产生的机理。同时也比较分析了相同开关的不同操作所产生VFTO辐射场之间的差异和机理。结论显示开关电弧放电位置与其引起的辐射场信号的频谱幅值分布具有紧密的联系。文中的研究成果对GIS变电站的在线监测提供了测量手段与依据。

220kV GIS中断路器关合空载变压器所产生VFTO辐射电场的测量与波形特征分析

为研究变电站中开关动作所产生瞬态辐射场的波形特征,利用变电站停电检修的机会对220k V GIS中三相断路器操作所产生的VFTO辐射电场进行了测量与分析。首先针对变电站内复杂的电磁环境,研制了一套宽频带、抗电磁干扰能力强且传输距离远的光纤电场测量系统;然后选取了数个具有代表意义的测点,对断路器闭合空载变压器时所产生的VFTO辐射电场进行了测量;取得测量结果后,分别从时域和频域进行了波形特征与分布规律的分析。经分析可知:断路器对空载变压器的闭合操作可以在变电站中产生VFTO辐射场,脉冲电场的幅值可达7k V/m,前沿可达5ns,前沿陡度可达1.2(k V/m)/ns,该辐射场对工作在GIS中的电子设备具有潜在的威胁,因此需要研究VFTO辐射场的波形特征。研究结果表明:VFTO辐射电场一般为间隔数ms的脉冲群,每个脉冲为振荡衰减波且具有多个特征频率,按照不同特征频率的波形成分衰减速度的不同,可以将脉冲在时域上分为三个时期。