一种微带交指型滤波器的改良型设计

论述了用Ansoft公司的Designer微波设计软件设计一种改良型的微带交指型带通滤波器。描述了微带交指型滤波器的设计方法,通过实例对这种改良型的微带交指带通滤波器进行了计算机最优化仿真设计,并给出了优化结果。微带交指型滤波器结构紧凑、指标优良,是微波混合集成电路中常见的形式,原理上是由1/4波长平行耦合线滤波器的谐振器折叠而成。     

微带滤波器在EHF频段的应用研究

微带滤波器是微波电路中广泛使用的一种滤波器,但在毫米波频段,常规形式的模型和设计会出现性能恶化和无法实现加工等方面的问题。给出了一种利用改进的短截线形式的滤波器模型制作EHF频段带通滤波器的实例,并给出了仿真优化过程和测试结果,证明了该设计方法的正确性,扩展了微带滤波器在毫米波应用的范围。     

数控可选通微带滤波器组的设计与仿真

设计了宽频带数控可选通微带滤波器组,采用微波开关实现滤波器组的单个选通。分析了电容加载谐振器的谐波特性,每个带通滤波器被设计成梳状线结构,并用先进的设计系统（ADS）优化其结构参数。数控滤波器组由两片带译码器的微波开关芯片和4个微带滤波器构成。仿真结果表明,三位二进制编码控制每个滤波器的通断,可实现500~2 000 MHz频段滤波器的选通。     

一种新型SIR交指微带带通滤波器的设计

交指带通滤波器是工程应用中常用的带通滤波器,但随着产品的小型化及带外抑制性能要求的多样化,常规交指带通滤波器在使用上受到较多限制。文中设计了一种新型SIR交指型微带带通滤波器结构,对常规交指微带带通滤波器进行小型化以及抑制性能优化。这种滤波器通过引入1 4波长SIR结构缩小单个谐振单元尺寸进行小型化,并引入发夹结构,通过其自身谐振特性以及交叉耦合在左端引入一传输零点,达到改善抑制性能的目的。通过HFSS建模仿真比对了同指标的两种结构滤波器特性,分析得出各自适用的抑制要求。测试结果表明,设计的带通滤波器性能曲线与仿真曲线相吻合,符合设计要求。     

可调微带矩形环带通滤波器

给出了一种可调微带矩形环带通滤波器的仿真和实验结果。在微带矩形环谐振器内加载折线路径,利用PIN管的导通断开状态获得不同的谐振长度,从而实现在2.5GHz和5.2GHz两个频段上带通滤波器的电控切换。PIN管开关正向导通时,在电路中等效于一个电阻,带通滤波器工作的中心频率为5.2GHz,带宽1.2GHz,插入损耗1.08dB;开关断开时,在电路中等效于一个电容,滤波器通带工作频率约为2.5GHz,带宽10MHz,插入损耗为1.99dB。     

一种新型微带曲折线慢波结构的设计

设计了一种新型微带曲折线慢波结构,该结构采用双介质杆支撑式的V型平面曲折线慢波电路。利用电磁场仿真软件HFSS对这种新型结构和传统微带曲折线慢波结构进行了分析比较,研究结果表明,新型微带曲折线慢波结构在不改变色散强弱的情况下,工作频段向高频端拓展且耦合阻抗有了很大提高,可以更好地工作在短毫米波段。并仿真分析了结构参数对高频特性的影响,所获得的仿真结果为器件的粒子模拟及计算慢波结构的工作效率奠定了基础。     

一种新型微带交指带通滤波器的设计

分析了四分之一波长阶跃阻抗谐振器(SIR)能够抑制寄生响应的特点和实现滤波器小型化设计的原理。利用SIR增加了设计滤波器的灵活度,实现了对L波段传统微带交指带通滤波器的改进,得到了基于SIR结构的新型微带交指带通滤波器。仿真试验结果证明:改进后的滤波器第一寄生响应向后推移1.4 GHz,整个滤波器的面积可以减少32%,该设计方法有效。     

新型阶梯阻抗谐振器滤波器的性能研究

对阶梯阻抗谐振器的谐振特性等进行了分析和计算。设计了一种新型缺陷地结构双T形微带带阻滤波器和一种新型缺陷地结构双H形微带带通滤波器,对其滤波性能进行了仿真计算。该文设计的滤波器具有宽带宽,高衰减,结构简单等优点,可供射频电路应用参考。     

一种具有简单微带线/共面波导结构的新型超宽带带通滤波器

本文提出了一种具有简单微带线/共面波导谐振器结构的新型超宽带带通滤波器,滤波器在通带的两侧具有两个传输零点。滤波器的输入、输出微带（开路）线之间具有耦合电容效应,该电容可以用来调整低端传输零点。微带（开路）线各自与共面波导谐振器可以形成两个串联电容,同时共面波导谐振器的一条短路枝节线形成了一个并联电感。微带开路线上的延伸微带枝节尺寸可以用来调整滤波器的上端传输零点。利用HFSS对该滤波器进行了仿真设计,详细的设计过程也一并给出。仿真表明滤波器的3dB带宽可以覆盖UWB的整个波段。     

微带型回音壁模介质谐振器带阻方向滤波器

本文报道了使用新型平面回音壁模介质谐振器的微带型毫米波带阻、方向滤波器。全文用行波环谐振器的方法进行分析,并给出了Ka波段带阻、方向滤波器的实验研究,其结果表明,该谐振器特别适用于毫米波微带集成电路。     

A novel dual-mode bandpass filter with wide stopband using the properties of microstrip open-loop resonator

A novel dual-mode microstrip square loop resonator is proposed using the slow-wave and dispersion features of the microstrip slow-wave open-loop resonator. It is shown that the designed and fabricated dual-mode microstrip filter has a wide stopband including the first spurious resonance frequency. Also, it has a size reduction of about 50% at the same center frequency, as compared with the dual-mode bandpass filters such as microstrip patch, cross-slotted patch, square loop, and ring resonator filter.     

Slow-wave bandpass filters using ring or stepped-impedance hairpinresonators

This paper proposes a new class of slow-wave bandpass filters that uses a microstrip line periodically loaded with microstrip ring or stepped-impedance hairpin resonators. The new slow-wave periodic structures utilize the parallel and series resonance characteristics of the resonators to construct a bandpass filter. Unlike conventional slow-wave filters, the proposed bandpass filters are designed to produce a narrow passband at the fundamental mode of the resonators. The new filters provide lower insertion loss than that of parallel- or cross-coupled ring and stepped-impedance hairpin bandpass filters. The calculated frequency responses of the filters agree well with experiments     

A compact open-loop resonator filter with a wide stopband response

This paper presents a new class of microstrip slow-wave open-loop resonator filter with reduced size and improved stopband characteristics. A comprehensive treatment of both resonator ends loaded with triangular and rectangular shapes is described, leading to the invention of a microstrip slow-wave open-loop resonator. A four-resonator bandpass filter is designed at the operating frequency about 2 GHz, bandwidth of 60 MHz. The size of the slow-wave open-loop resonator is optimized from the standpoint of the unloaded Q-factor. The proposed filter is not only compact size due to the slow-wave effect but also has a wider upper stopband resulting from the dispersion effect. The filter design of this type will be described in detail. The experimental results are demonstrated and discussed.     

374~747 MHz数字可调谐微带滤波器

通过在微带开口谐振环加载数字可调电容,设计了一种新颖数字微带可调滤波器,同时提出了新型的非均匀开口谐振环混合耦合结构,使谐振器间耦合系数随谐振频率的降低而增大,实现恒定绝对带宽可调滤波器。接着对所提出的基于5 bit数字可调电容的数字可调微带滤波器进行了仿真和制作,测试表明,其通带中心频率可实现374~747 MHz可调,?3 dB绝对带宽在44~67 MHz之间变化,OIP3大于50 dBm。     

Electric-magnetic-electric slow-wave microstrip line and bandpass filter of compressed size

This paper presents a novel integrated microstrip low-loss slow-wave line. The new microstrip replaces the conventional metal strip by composite metals paralleling the electric surface and magnetic surface (MS). The MS made of an array of coupled inductors shows a high-impedance state in the stopband, below which the propagation properties can be well controlled by varying the dimensions of the electric surface and MS. The dispersion curves obtained by matrix-pencil analyses closely correspond to those obtained by scattering-parameter extraction. Theoretical results, as confirmed experimentally, indicate that an increase of over 60% in the slow-wave factor can be achieved without sacrificing propagation losses, using the proposed structure. This electric-magnetic-electric (EME) microstrip is insensitive to the alignment position of the periodical structure, and can be constructed using conventional printed-circuit-board fabrication processes and integrated with other microwave components in a multilayered circuit. A compact EME bandpass filter (BPF) with suppressed harmonic responses is presented. The length of the filter is reduced by 26%, and the measured insertion loss and fractional bandwidth is comparable to that of a conventional microstrip BPF on the same substrate.     

基于新型缺陷地的谐波抑制微带滤波器设计

由于分布参数传输线频率响应的周期性,通常微带线带通滤波器在偏离主通带中心频率成分上会产生寄生通带,输出谐波.在研究经典哑铃DGS的基础上,利用新型DGS和SISS结构的单极点带阻和慢波特性,设计出五阶微带低通滤波器,并将之应用于三阶耦合线带通滤波器,改善其寄生通带.经过仿真验证,成功地抑制了三阶耦合线带通滤波器的谐波输...     

基于DGS的微带DBR双工器的研究

提出了一种高隔离度的微带双工器结构.在微带双重行为谐振(DBR)滤波器中引入基于缺陷地结构(DGS)的低通滤波器,利用DGS的慢波特性减小DBR滤波器奇偶模之间的相速差,从而改善滤波器的上阻带特性.使用本文提出的微带滤波器结构设计并研制了一C波段的微带双工器,仿真和测试结果表明:微带双工器的插入损耗小于1.3dB,隔离度大于65dB.     

光子带隙结构在微带带通滤波器中的应用

介绍了两种带有一维光子带隙(Photonic Bandgap，简称PBG)结构的馓带带通滤波器。它们具有良好的慢波滞阻特性，同时在结构上又无须腐蚀接地板．而仅仅修改微带线的形状。计算仿真与测量结果基本相符合。     

Miniaturised microstrip bandpass filter using stepped impedance ring resonators

A novel microwave bandpass filter using microstrip stepped impedance ring resonators is reported. The new filter has the advantages of compact size together with sharp rejection of outbands. A two-pole microstrip bandpass filter of this type has been implemented and examined, theoretically and experimentally.     

A reduced-size dual-mode bandpass filter with capacitively loaded open-loop arms

A novel type of dual-mode microstrip bandpass filter using degenerate modes of a dual-mode microstrip square loop resonator with capacitively loaded open-loop arms is proposed. Such a dual-mode bandpass filter with a 0.75% bandwidth at the center frequency of 1.603 GHz is designed and fabricated to demonstrate the design of reduced-size microstrip filters. It is shown that the proposed filter has a size reduction of about 59% at the same center frequency, as compared with the dual-mode bandpass filters such as microstrip patch, cross-slotted patch, square loop and ring resonator filter.