宽阻带三模谐振器微带带通滤波器设计

介绍了一种新颖的微带三模谐振器,由该谐振器构成的微带滤波器具有较宽的通带以及较好的带外抑制。对传统的单模微带环形谐振器结构进行优化,使谐振器在通带内具有三个谐振点,并且在通带边缘有四个对称衰减极点。引入的阶梯阻抗谐振单元使得微带三模谐振器具有良好的带外抑制。依据传输线原理对宽阻带三模谐振器进行了分析,并完成了中心频率为1090 MHz的宽阻带带通滤波器设计和加工,其实际测试结果与软件仿真结果具有良好的一致性。     

一种具有传输零点的Hairpin带通滤波器设计

本文通过在微带（hairpin）滤波器的谐振器上并联微带开路线，构成了一种新的hairpin带通滤波器。该滤波器在通带附近有一对传输零点，具有良好的频率响应以及频率选择特性。由于这种类型的微带滤波器实现传输零点不需要通过滤波器非相邻谐振器间的交叉耦合来获得，因此，设计过程非常简单。     

慢波结构SIR双频带通滤波器设计

本文通过分析阶梯阻抗谐振器（SIR）和慢波结构谐振器的特性,提出了利用SIR谐振器的寄生通带产生第二通带的双频带通滤波器设计方法,以达到滤波器小型化的目的;并基于0°馈电结构获取传输零点的原理对滤波器阻带性能进行优化。最后结合ADS仿真软件设计了一个中心频率在2.4GHz和5.2GHz的微带双频带通滤波器。仿真结果表明滤波器具有良好的带内带外特性。本文所设计的滤波器尺寸小,性能好,具有很好的实用价值。     

基于双枝节“U”型谐振器的双频段微带带通滤波器

利用一种新型的双枝节"U"型谐振器结构,设计了一款双通带微带带通滤波器。该谐振器是在"U"型谐振器的中间和侧臂上各引入了一个枝节得到的,调节侧臂上枝节的特性导纳能够在不改变一次谐波与基波频率比f_1/f_0的情况下自由改变二次谐波与基波频率比f_2/f_0的值,该特性能在实现指定的双通带的同时获得较好的带外抑制性能。对中心频率分别为0.9GHz和1.36GHz,相对带宽分别为12%和4%的双频段的微带带通滤波器进行了仿真和测试,测试结果与仿真结果吻合良好,证实了该双枝节谐振器的有效性。     

一种新颖的微带低通滤波器

提出了一种小型超宽低通微带滤波器的新型结构,即微带与共面波导紧耦合结构。该微带滤波器由接地板上一个共面波导谐振器与基片另一面上开槽的微带结构发生耦合,得到两极点,准椭圆函数响应滤波器,通带上限频率有一个传输零点。该结构有尺寸小、通带损耗小和群时延好等特性。     

基于折叠型SIR 谐振器的双通带滤波器设计

文中提出了一种基于折叠型SIR 谐振器的双通带频率可控的微带滤波器,它由SIR 谐振器特性结合 传输线理论实现。该滤波器设计为具有两个自由度,调节谐振器的导带宽度可以对两个通带之间的频率及其间隔 进行调节。文中还研究了调整谐振器导带长度对滤波器频率特性的影响。测试结果表明,该微带滤波器有两个通 带,其中心频率分别为2. 79 GHz 和3. 90 GHz,带内最小插入损耗分别为-0. 96 dB 和-3. 0 dB,带内最小回波损耗分 别为-42 dB 和-18 dB,相对带宽分别为5. 7%和6. 7%。仿真和测试结果的一致性证实了滤波器设计的有效性。     

双模微带三角形贴片滤波器的改进设计

双模微带谐振器用于微波滤波器设计时具有独特的优点。近年来出现了一些由双模微带三角形贴片谐振器设计的滤波器,这类滤波器结构简单、尺寸小、通带损耗小、功率容限大。在传统的双模微带三角形带通滤波器的基础上,利用分形结构提出一种新型的双模微带三角形带通滤波器,并对此结构的性能进行了分析和研究。实验和测量结果表明,改进后的滤波器在保持原有滤波器性能的基础上,由于引入了分形结构使滤波器的尺寸更加紧凑、有更好的带外抑制能力。仿真和实测结果基本吻合。     

基于折叠双模谐振器结构的微带带通滤波器

设计了一种采用折叠双模谐振器结构的新型双模微带带通滤波器。通过在折叠双模谐振器两侧加载交叉耦合结构,使通带两端产生一对传输零点。实验结果表明,该滤波器具有结构紧凑,体积小,损耗低,带外抑制性能好等优点,且其中心频率为3.65 GHz,通带为2.5～4.8 GHz,最大回波损耗优于-33.5 dB,最小插入损耗为-0.18 dB,实测结果和仿真结果相吻合。     

基于折叠双模谐振器结构的微带带通滤波器

设计了一种采用折叠双模谐振器结构的新型双模微带带通滤波器。通过在折叠双模谐振器两侧加载交叉耦合结构,使通带两端产生一对传输零点。实验结果表明,该滤波器具有结构紧凑,体积小,损耗低,带外抑制性能好等优点,且其中心频率为3.65GHz,通带为2.5~4.8GHz,最大回波损耗优于-33.5dB,最小插入损耗为-0.18dB,实测结果和仿真结果相吻合。     

新型超宽带带通滤波器

提出了一种新型的短接环形多模谐振器,适合于构成超宽带带通滤波器。利用该多模谐振器的前三个谐振模式构成滤波器的整个通带．并提出通过改变多模谐振器阻抗比来控制该带通滤波器的相对带宽的方法。该结构具有易于级联的特性。通过级联可明显改善阻带特性。给出了一个单元以及三个单元级联后的滤波器结构以及通过仿真和实验获得的性能参数,验证了所设计的新型超宽带带通滤波器的有效性。     

宽阻带阶跃阻抗发夹线带通滤波器设计

提出了新的抑制微带带通滤波器寄生通带的方法。这种方法通过级联阶跃阻抗发夹线谐振器构成的椭圆函数低通滤波器于带通滤波器的输入/输出端,显著改善了后者的阻带抑制特性。本文基于新的等效电路模型,推导出了此类低通滤波器的阻带传输零点位置。设计了L波段宽阻带阶跃阻抗发夹线带通滤波器验证了理论分析和设计过程的正确性。     

An Ultra-Compact Planar Bandpass Filter With Open-Ground Spiral for Wireless Application

A common via filter is investigated and designed by using a proposed scalable lumped circuit model. The model-based result of the filter agrees well with that of the measurement. An ultra-compact open-ground spiral filter is proposed based on the common via filter. The open-ground spiral resonators are used to design second-order and fourth-order bandpass filters. The filter layouts, which affect filter performance in both passband and stopband, are investigated. The advantages of the open-ground spiral filter include not only its ultra-compact size (only ) but also its additional transmission zero points and controllable stopband.     

一种新型微带Hairpin带通滤波器的设计

通过在Hairp in滤波器的非相邻谐振间并联一段长度为λ0/2奇数倍的微带线使得在滤波器的通带两侧产生一对传输零点,构成一种新的微带Hairp in带通滤波器。该类滤波器的设计避免了交叉耦合带通滤波器求解耦合系数的复杂过程。最后给出了该类型滤波器的设计实例,仿真、测试结果证实了设计方法的正确性。     

A novel self-coupled dual-mode ring resonator and its applications to bandpass filters

A novel dual-mode ring resonator with self-coupled segments, called a self-coupled ring resonator, is proposed. The self-coupling between ring segments provides the same mode perturbation effect as the conventional methods of adding stub, cutting notch, or varying line impedance on the ring resonator. The mode perturbation and transmission-zero generation due to the self-coupling effect are analyzed with the even-odd mode theory. The self-coupled ring resonator can have the capacitive or inductive perturbation simply by controlling the impedance ratio and coupling coefficients of self-coupled sections. For both perturbation cases, the transmission zeros exist at even multiples of the passband center frequency, resulting in wide stopband range. Also, only for the capacitive perturbation case, two transmission zeros are found on both sides of the passband, which brings a pseudo-elliptic bandpass response. In comparison with the regular uniform ring resonator, the self-coupled ring resonator takes shorter ring length, giving the compact size feature when applied to a bandpass filter design. A 2.45-GHz low-temperature co-fired ceramic bandpass filter based on the self-coupled ring resonator was designed to verify the proposed theory.     

Compact microstrip coupled-line bandpass filter with four transmission zeros

A compact coupled-line bandpass filter with multiple capacitive cross-couplings to create four transmission zeros is proposed. The locations of transmission zeros can be adjusted by varying the values of cross-coupled capacitances so as to improve the filter selectivity. The proposed filter is based on one-eighth-wavelength (/spl lambda//8) coupled-line sections and quarter-wavelength (/spl lambda//4) resonators, thus it occupies only half of the circuit area comparing with the conventional coupled-line bandpass filters. Specifically, a fourth-order microstrip coupled-line bandpass filter centered at 2.46GHz with a 3-dB bandwidth of 10.2% and four transmission zeros is implemented and examined.     

一种新型交指-发夹型多层带状线带通滤波器

提出了一种新型交指－发夹型多层带状线带通滤波器结构,并设计加工了一个中心频率为2.25GHz,分数带宽为31%的四级带通滤波器,测试值与仿真值吻合得较好.通过仿真结果比较以及实验结果证明,与传统交指型带通滤波器相比,新型交指－发夹型滤波器不但体积减小了约一半,而且能够方便地引入交叉耦合,从而在阻带内产生传输零点,很好地改善滤波器的频率选择特性.     

Tunable lumped-distributed capacitively-coupled transmission-line filter

A wide tuning range filter is proposed based on lumped-distributed capacitively-coupled transmission lines. The proposed structure maintains a constant inter-resonator coupling factor over a wide centre-frequency tuning range leading to a constant fractional bandwidth design. A bandpass filter with a two-octave tuning range has been designed, fabricated and measured.     

一种小型化带通滤波微带巴伦设计

提出一种小型化带通滤波微带巴伦的设计。在Marchand巴伦的基础上,使用一个半波长和两个1/4波长传输线作为谐振器,在带通滤波微带巴伦的两个输出端口可以获得相同幅度和相反相位的平衡信号。利用谐振器平行线耦合可以观察到通带两侧存在两个传输零点。对提出的中心工作频率在2.65 GHz的带通滤波微带巴伦进行了实物加工与测试。两个输出端口信号幅度差与相位差分别为±0.4 dB和180°±5°。仿真与测量结果有较好的一致性,验证了本文所提方案的可行性。     

A novel microstrip square-loop dual-mode bandpass filter with simultaneous size reduction and spurious response suppression

In this paper, a new capacitively stepped-impedance resonator(CSIR) is proposed to develop the microstrip square-loop dual-mode bandpass filter. Using this new design, simultaneous size reduction and spurious response suppression for the dual-mode bandpass filter can be achieved. An analytical formulation of this novel resonator is given in order to elucidate the spurious frequencies relocation design. Together with this formulation, a generalized dual-mode bandpass filter model is developed so as to ease the analysis of transmission zero and insertion loss. A prototype filter is designed at 900MHz with 1.5% fractional bandwidth. Significant spurious suppressions up to 33 and 35 dB are measured at 1.8 and at 2.7 GHz, respectively. A circuitry size reduction of 54% is achieved when compared with that of the conventional structure. Moreover, the CSIR allows frequency tuning and, thus, a varactor-tuned filter is designed and a measured tunable center frequency between 1.5-1.62GHz is demonstrated. Utilizing the proposed structure, not only size reduction,as well as spurious response suppression, but also center frequency tuning can be achieved.     

A Microstrip Ultra-Wideband Bandpass Filter With Cascaded Broadband Bandpass and Bandstop Filters

This paper develops a novel ultra-wideband bandpass filter by cascading a broadband bandpass filter with another broadband bandstop filter. Properly selected impedances of transmission lines achieve broadband bandpass and bandstop filters and make independent designs possible. Detailed design and synthesis procedures are provided; moreover, agreement between measured and theoretically predicted results demonstrates feasibility of the proposed filter. Due to its simple structure, the ultra-wideband bandpass filter newly introduced in this paper is suitable for integration in the single-chipped circuit or implementation on printed circuit boards.