共查询到19条相似文献,搜索用时 41 毫秒
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提出了一种新型的基于缺陷地结构的双频带带通微带滤波器.缺陷地结构采用双模开口谐振环形式, 并使用不同组合方式的双模开口谐振环产生两个通带.滤波器的两个工作中心频率分别为3.5 GHz和5.8 GHz, 其中第一个频带涵盖了所有全球微波互联接入的应用频段, 第二个频带可以应用于雷达设备.为了进一步证实这款滤波器的性能, 基于Roggers RT5880板材制作了滤波器实物, 整体滤波器的大小仅为20 mm×20 mm, 测量数据和仿真结果吻合较好, 并且有两个传输零点, 可以满足工程上的需要. 相似文献
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提出了一种新型对偶复合左右手传输线(Dual Composite Right/Left-handed Transmission Line,D-CRLHTL)结构,该结构单元由T型缺陷地(T-shaped defected ground structure,T-DGS)结构以及矩形贴片短截线组成,基于对传输线单元结构传输特性的全波仿真分析,设计了一款带阻滤波器。由于利用了基于T-DGS的D-CRLH传输线,该带阻滤波器具有较小的尺寸和更加陡峭的边沿特性。实验结果和仿真设计结果吻合较好:阻带中心频率为4.15GHz,插入损耗为30dB,3dB带宽为1.9GHz,20dB带宽为1.55GHz。 相似文献
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微波频段的宽带滤波器一般具有通带插入损耗大,带外抑制性差等问题,为了解决这个问题,采用具有慢波效应的缺陷地结构(DGS)和缺陷微带结构(DMS),设计了一种新型微波频段的超宽带滤波器。分别利用电磁仿真软件HFSS和平面印制板技术对其进行建模仿真和实物加工。实测与仿真结果良好吻合,带内插入损耗优于1.64dB,回波损耗优于13.93dB,通带范围在2.75~8.3GHz,实现相对带宽100.45%,高低阻带均抑制在-10dB以下,且该滤波器结构紧凑,体积小。 相似文献
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采用微带线设计的平行耦合滤波器(MCL-BPF)在通带以外往往产生谐波,出现寄生频段。利用缺陷地结构(Defected Ground Structure,DGS)的单极点带阻特性和慢波效应可以改善寄生通带,抑制谐波输出。对2.4GHz的传统微带平行耦合滤波器和改进型带通滤波器进行了仿真设计与加工测试。实测结果与仿真数据良好吻合,所提出基于斜哑铃型DGS的带通滤波器(S-DGS-BPF)可抑制至四阶谐波,抑制度达到-22dB以下,阻带为3-10GHz,中心频率处回波损耗为-26.93dB。并且改进型滤波器的尺寸缩小了约10%。 相似文献
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This article presents a compact microstrip dual-band bandstop filter (BSF), in which one λg/4 defected ground structure (DGS) pair is utilised to realise one stopband while two stepped impedance resonators (SIRs) help obtain another stopband and suppress the spurious harmonics. The design strategies and the equivalent circuits are introduced in detail. The measured results indicate 43.8% and 18.7% fractional bandwidth in the two stopbands (2.4 GHZ and 5.2 GHz) respectively, and the return loss is greater than 15 dB in the whole passband. In addition, size reduction can be conveniently achieved by adjusting the length of the SIRs and DGS. 相似文献
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设计了一种基于可重构超材料的太赫兹三带可调带阻滤波器。该滤波器各单元均由可动部分与固定部分构成,两部分均采用金-硅两层结构,表层金的厚度为0.65 μm,下层硅的厚度为25 μm。可移动部分由电热驱动器进行驱动,最大位移为5 μm。可动部分为两边长不同的矩形环,固定部分为开口环。用时域有限积分方法研究了滤波特性和频率可调机理,并根据表面电流分布情况,建立了等效电路。由表面电流分布可知,前两个阻带中心频率分别由固定部分的低频偶极子和高频偶极子振荡产生,第三个阻带中心频率由可动部分表面的偶极子振荡产生。该可调带阻滤波器在太赫兹通信和频率选择性太赫兹探测领域有重要应用价值。 相似文献
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Ali Reza Hazeri 《International Journal of Electronics》2013,100(5):679-683
In this article, by replacing the series quarter-wavelength connecting line of conventional open-stub bandstop filter (BSF) with the equivalent P-shaped line, a compact dual-band BSF is proposed and designed. Furthermore, it suppresses a lot of spurious passbands of the open-stub BSF. Design equations of P-shaped line are achieved by ABCD matrixes. To validate the design concept, two full-wave electromagnetic simulators are used and the proposed filter is fabricated. The simulate results are in excellent agreement with measurement results. The circuit area of the dual-band BSF is only 50% of the conventional open-stub BSF. 相似文献
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A synthesis method to design a defected ground structures (DGS)-based Bessel low-pass filter (LPF) using a triangular and an open-square (OS)-type DGS is reported. For the five-pole Bessel LPF at fc = 2.5 GHz, we get 10.6 dB/GHz selectivity using the triangular DGS; while the OS-type DGS provides 39 dB/GHz selectivity. For these two filters, the 10 dB impedance matching BW is 76% and 84%, respectively. It is a much wider BW that is obtained for a lumped element Bessel LPF. The maximum group delay (GD) variation within the pass band is 25pS and 28pS, respectively. The 20 dB rejection BW can be increased from 5.8 GHz to 18.8 GHz with increase in the order of filter from 5 to 11. We have also presented the design of a compact five-pole DGS-based elliptic filter with selectivity 38.2 dB/GHz and 17.8 dB return loss. Results on the DGS-based elliptic filter, Butterworth and Chebyshev filters are also presented. The experimental results are compared against the recently reported LPFs. Our reported filters perform better with respect to selectivity and group delay variation. The flatter GD and high selectivity, along with a wide 10 dB impedance matching BW, make the DGS Bessel filter a candidate for high-speed data communication, front end of a wideband communication system and efficiency improvement of a power amplifier. 相似文献