基于扇形枝节加载谐振器的超宽带滤波器

该文提出了一种基于新型扇形枝节加载谐振器的改进上阻带特性的小型化超宽带带通滤波器。该新型多模谐振器由一根高阻微带线上连接三对扇形分流枝节组成。适当调节扇形枝节的尺寸,扇形枝节加载谐振器的谐振频率可以粗略的放置在超宽带频段内（3.1~10.6 GHz）。为了加强耦合度,在滤波器的输入和输出端使用了交指型耦合馈线。此外还给出了该滤波器的设计方法和步骤。最后,给出了滤波器的设计和拓扑结构。测量结果和全波仿真结果有很好地一致性。     

新型多模谐振器的陷波超宽带小型化滤波器

该文提出了一种新型多模谐振器的小型化陷波超宽带滤波器。该新型多模谐振器在超宽带通带范围内有6个谐振模式,通过并联平行耦合馈线耦合到输入和输出端口,其中3个谐振模式是由高阻抗短截线加载扇形低阻抗截面产生,而剩余的谐振模式是通过在高阻抗线上加载开路枝节和在扇形低阻抗截面刻蚀圆形槽形成。同时,为了避免无线局域网(WLAN)频段和国际电信联盟(ITU)频段对超宽带系统的干扰,在扇形面加载开路短截线,引入中心频率为5.48 GHz和8.3 GHz的陷波。最后,设计制作了一种超宽带陷波滤波器,实测与仿真结果基本吻合。     

平面印刷单极子天线频带抑制技术的应用

为克服无线通信系统间相互干扰,采用频带抑制技术对共面波导馈电圆形单极子天线进行改进,设计出一副具有双阻带特性的超宽带天线和一副用于无线局域网/全球微波接入(WLAN/WiMAX)系统的三频段天线.通过在圆形贴片底端加载两条多边形槽线,实现了3.29～4.00 GHz和5.29～6.00 GHz抑制频段的超宽带天线,阻带覆盖了WLAN/WiMAX应用频段.在三频段天线的设计中,综合采用五边形槽线、调谐枝节和扇形槽加载技术,对频带进行阻断和控制.实测三频段天线的工作频带为2.25～2.80 GHz、3.3～3.8 GHz和5.1～5.9 GHz,覆盖了WLAN/WiMAX系统的应用频段,并在其余频段具有良好的频带抑制特性.所设计的两幅天线均具有可调的工作频段,适合复杂环境中对无线通信系统相互干扰的抑制.     

采用复合左右手结构的微型基片集成波导滤波器设计

为了降低滤波器尺寸以适应sub-6 GHz小型化便携式通信设备的要求,提出一种新型锯齿形的叉指电容复合左右手结构,从而提升传统矩形叉指复合左右手结构的耦合电容。相比于传统结构,该新型结构增大了叉指电容值,降低了谐振频率,减小了滤波器的尺寸,可为sub-6 GHz无线通信系统提供工作频段仅为3.3~3.5 GHz的微型滤波器。为了进一步验证新型滤波器的设计理论和性能,设计、加工一款基于该结构的微型化基片集成波导(SIW)滤波器。测试结果表明：改进型结构滤波器的中心频率为3.35 GHz,工作带宽为200 MHz,插入损耗为2.4 dB,滤波器尺寸仅为10.0 mm×7.4 mm;相较于传统复合左右手结构滤波器（中心频率为6.8 GHz）,该滤波器的中心频率降低了50%。新型锯齿形叉指复合左右手结构能有效降低射频滤波器的工作频率,减小滤波器尺寸,适用于工作在6 GHz以下频段的微型滤波器设计。     

Design of Multi-band Small Antenna Based on Single Split-Ring Resonator

To use the single split-ring resonator(SRR)as a basic unit cell for small antenna with multi-band frequency response is proposed.The structure of antenna is consisted of a single spilt-ring resonator and a coupled microstrip line.The designed antenna is numerically optimized with CST Microwave Studio.The radiation properties of the antenna show that there are three frequency bands among which two bands are 1.3 GHz and 2.1 GHz ultra-wideband(UWB),respectively,where S11 is less than-10 dB.The gain at every fr...     

EMC天线的低不确定度校准

在进行电子设备的电磁兼容辐射骚扰测量时,所用天线的精确校准是必不可少的.给出几种9 kHz到18 GHz的天线校准方法.这些方法主要包括以三天线法为基础的自由空间天线系数的测量方法及相关场地检测法.天线包括偶极子天线和相似天线及1 GHz以上的方向性天线.场地包括开阔场地和全电波暗室.天线校准方法也包括一个环形天线的磁天线系数校准的扫频方法及相关场地检测法.     

新型双模方环微带带通滤波器简

This paper presents a novel dual-mode square loop resonator with a compact size. Firstly, the odd-even-mode method is utilized to analyze the resonant property of the proposed resonator since its structure is symmetrical, and the passband center frequency can be easily tuned by changing the lengths of a pair of loaded open-ended stubs. Secondly, source-load coupling is introduced to produce a new transmission zero and improve the passband selectivity. Finally, a microstrip dual-mode bandpass filter (BPF) centering at 1.95GHz with a 3dB fractional bandwidth (FBW) of 37.7％ is designed and fabricated. The measured and simulated results in good agreement are presented.     

基于寄生耦合单元的多频段微带天线设计

通过在金属贴片边缘增加寄生耦合单元,设计了单馈点、易共形的紧凑多频段微带天线.该微带天线由地面、馈电传递单元及其两侧边缘的一个曲折线形贴片寄生耦合单元和一个T形贴片寄生耦合单元组成.天线的谐振频率和带宽由2个寄生耦合单元的结构尺寸以及寄生单元与馈电传递单元之间的相互耦合共同确定,可以通过调整寄生耦合单元的结构参数独立调整各谐振频点.通过计算电磁学软件分析了各结构参数对谐振频率的影响,并仿真了一种典型情况的天线,其工作频段为0.972~0.988 GHz、2.178~2.27 GHz和3.293~3.356 GHz.该天线仿真和测试结果符合得很好,验证了可通过单馈点激励多个寄生耦合单元的方法有效地设计多频段天线.     

Novel dual-band bandpass filter with wide upper stopband performance

In traditional design of the dual-band bandpass filter (BPF), two or more resonators need to be utilized, which leads to a relatively large circuit size. For miniaturization, a novel stub-loaded square loop quad-mode resonator is proposed in this paper. Due to the symmetry of the structure, the even-odd-mode method is applied twice to analyze its resonance characteristics. All the four mode equivalent circuits are quarter-wavelength resonators, so the resonator has a compact size and the first harmonic is three times the fundamental one. The resonant frequency of each mode can be tuned freely by changing the corresponding physical dimensions, and the passband frequencies and bandwidths of the designed dual-band filter using the proposed resonator are independently controllable. To improve the selectivity and achieve a wide upper stopband, quarter wavelength hook-shape feedlines are designed to provide appropriate external coupling. Two new transmission zeros are generated by the feedlines. Finally, a microstrip dual-band bandpass filter (BPF) centering at 15 and 24GHz with a 3dB fractional bandwidth (FBW) of 107％ and 96％ is designed and fabricated. The measured and simulated results which are in good agreement are presented.     

Printed elliptical slot UWB antenna for dual-banded application

Based on the analysis of printed elliptical slot (PES) UWB antenna,a dual-banded PES antenna is designed for WLAN and UWB bands at 2.4 GHz.The design cooperates two important wireless commutation system antennas into one printed antenna.In the design,a circular slot structure is presented,which is suitable for the band ejection.Characteristics of the designed antenna are analyzed and key parameters,such as S11,S21 and VSWR are measured.E-field distribution of the surface is simulated and analyzed.