宽阻带小型化双频带通滤波器

文中提出了一种具有宽阻带的紧凑型双频带通滤波器,它采用了折叠短路枝节负载谐振器、紧凑型微 带单元谐振器(CMRC)和阶跃阻抗谐振器结构。由于多个谐振器产生了五个可控传输零点(TZ),该滤波器实现了两个 通带之间的良好隔离度以及宽阻带特性。制作并测试了尺寸紧凑的双频带通滤波器实验样品,测试结果显示,第一通 带和第二通带的中心频率/ 插入损耗分别为0. 66 GHz/0. 8 dB 和1. 73 GHz/0. 7 dB,阻带频率高达10. 5 GHz,抑制水平 超过15 dB。     

一种新型的T型双模微带带通滤波器

提出了一种新型的T型双模微带带通滤波器结构,即在T型谐振器的两侧通过交叉耦合结构和加载开路支节,分别实现了在通带外的低阻带产生一个传输零点和高阻带产生了两个衰减极点,提高了阻带的抑制能力,同时保证了滤波器的小型化。该滤波器的仿真结果表明,通带的中心频率为3.1GHz,最大回波损耗优于-40dB,最小插入损耗为-0.1dB,实测和仿真结果相一致。     

过模基片集成波导腔体滤波器设计

提出了一种过模基片集成波导(SIW)腔体滤波器。介绍了只由单个过模SIW 腔体构成的一阶滤波 器的原理。利用过模SIW 腔体中的基模实现模式交叉耦合,滤波器能产生一个位于通带任一边的传输零点(TZ)。 设计了一个由两个过模SIW 腔体级联成的二阶滤波器,该滤波器能产生两个传输零点。为了改善滤波器的阻带性 能,使用了非相似谐振器技术来实现寄生抑制。此外,阻带性能也可以通过增加基模谐振器的数量来改善。设计并 制造了含有两个过模SIW 腔体的二阶和三阶滤波器,仿真与测试结果吻合。     

SIR实现的新型毫米波UWB滤波器

提出了一个用阶跃阻抗谐振器(SIR)实现的毫米波超宽带(UWB)滤波器。滤波器的基本单元是一个由半波长微带线谐振器和SIR组成的三模谐振器。该谐振器采用SIR结构,从而达到阻带宽、结构紧凑,且能很好地改善带外抑制。为了进一步改善阻带特性,该三模谐振器与半波长谐振器平行耦合形成新型的滤波器。该滤波器有多个传输极点和传输零点,形成陡峭的通带边缘特性和很宽的阻带。实验测得滤波器的-3 dB相对带宽为35.7%,通带内的插入损耗约为-1.7 dB。插入损耗低于-17 dB的高频端阻带可到76 GHz。滤波器的仿真结果和测试结果基本吻合。     

阶跃阻抗谐振器及三阶交叉耦合带通滤波器设计

本文首先分析了三阶阶跃阻抗谐振器的谐振特性。然后用这样的谐振器单元组合构成三阶交叉耦合带通滤波器,该滤波器能在通带的高端产生一个传输零点,提高阻带的抑制效果。仿真结果与设计指标基本吻合,证明了设计的正确性。     

一种紧凑型微带三频滤波器的设计

提出了一种新型微带三频滤波器,滤波器由两个弯折并相互嵌套的分支线谐振器和一个T形谐振器组成。谐振器之间相互耦合,得到三通带频率响应特性。该滤波器可通过调节微带线几何参数改变通带位置以及带宽,以满足不同应用需求。这种结构的滤波器结构紧凑,电路面积小,三个通带两边各引入一个传输零点,增强了通带间的隔离度以及阻带抑制特性。设计并制作了一款1.57/3.55/5.2GHz三通带滤波器,测试结果与仿真结果基本相符,验证了该滤波器结构的有效性。     

具有小中心频率比的紧凑型双频带滤波器

采用平面双模谐振器设计了一款新颖的具有小中心频率比的紧凑型双频带滤波器。该滤波器的两个工作频段的中心频率分别为5G WiFi的两个有用频段5.2 GHz和5.8 GHz,中心频率比为1:1.1。实现了具有四个传输零点的双通带响应,其中位于两个频带中间的两个传输零点由谐振器自身产生,很好地抑制了通带间的无用频段。另外两个传输零点由源负载耦合结构产生。加工并测试了该滤波器,两个通带的3 dB相对带宽为5.8%和5.2%,通带内的插入损耗小于0.8 dB,四个传输零点分别位4.52, 5.50,5.50和6.50 GHz,实验和仿真结果吻合,验证了结构的有效性。     

T型支节加载的双模双通带微带滤波器

提出了一种新颖的双模双通带滤波器。该滤波器由带有短截线的双模谐振腔和半波长U型谐振器构成。设计滤波器的中心频率为3．65GHz／8．3GHz。两个通带分别工作在S波段和X波段。源和负载的耦合是由输入和输出馈线之间的半波长U型谐振器引入。U型谐振器可以控制第二个通带的带宽。两个额外的传输零点的引入提高了滤波器的选择性和隔离度。两个通带的回波损耗均大于20dB。滤波器尺寸非常小,宽为9．2mm,长为9mm。     

新型交叉耦合双模宽带带通滤波器设计

采用变形的阶梯阻抗谐振器(SIR)设计了一款小型化、高性能新型宽带带通滤波器.通过对经典的SIR进行弯折,在高阻抗线之间引入交叉耦合构成交叉耦合多模谐振器.该谐振器具有与经典SIR相同的谐振模式,由前两个谐振模式构成通带,并且在上下阻带产生两对对称的传输零点.该带通滤波器结构紧凑、带内差损非常小,同时由于带外传输零点的存在,一阶杂散得到有效抑制,带外特性明显改善.     

自均衡双通带微带滤波器综合与设计

 本文介绍了一种利用复传输零点设计自均衡双通带滤波器的方法,并用开环微带谐振器实现该滤波器电路.利用全波仿真软件,设计了一个12阶双通带自均衡高温超导薄膜微带滤波器.仿真结果显示该滤波器两个通带分别为2.631~2.679GHz,2.781~2.829GHz,阻带为2.681~2.779GHz,平坦的群时延占整个带宽60%以上.     

Novel Broadband Bandpass Filters Using Y-Shaped Dual-Mode Microstrip Resonators

A Y-shaped dual-mode microstrip bandpass filter (BPF) with input-output cross-coupling is presented. The characteristic of the Y-shaped dual-mode resonator has been investigated. The resonance frequencies of the degenerate modes can be adjusted easily to satisfy the bandwidth of the BPF. A parallel-coupling feed structure with a cross coupling has been used to generate two transmission zeros at the lower and upper stopband, which can improve the out-of-band performance. A broadband dual-mode microstrip BPF has been designed, fabricated, and measured. The simulated and measured results are in agreement generally. Within the 3.1 to 5.4 GHz bandwidth, the measured insertion loss, return loss and group delay variation are below 0.5 dB, above 15 dB, and below 0.2 ns, respectively.      

A novel compact dual-wideband BPF with multiple transmission zeros and super wide upper stopband

In this article, a novel miniaturised dual-wideband bandpass filter (DWB-BPF) based on two different resonators including a quasi-spiral loaded multiple-mode resonator (QSL-MMR) and L-shaped transmission line (LS-TL) is presented. At the first step, in order to design a single wideband BPF filter with controllable transmission zeros near the centre frequency, the open circuit impedance parameter of quasi-spiral loaded resonator Z₂₁ is determined in terms of ABCD matrix. Then an equivalent circuit model of the proposed structure is derived and the impedance characteristic and electrical length of LS-TLs to achieve a DWB-BPF with excellent selectivity are calculated through even- and odd-mode analysis. The proposed filter possesses both compact and simple structure as well as two wide passbands with fractional bandwidth (FBW) of 70% and 22.8% for its first and second passbands, respectively. The proposed technique creates two transmission zeros at the lower and upper stopbands of each passband resulting in a very sharp roll-off accompanied by a wide stopband. Notably, the circuit size is reduced and the bandwidth is enhanced in comparison with its conventional counterparts. The theoretical performance of the filter is verified by the experimental one where a good agreement is reported between them.     

Fractal Dual-Mode Open-Loop Quasi-Elliptic Bandpass Filter with Source-Load Coupling

To realize the feature of small size and high selectivity, a microstrip miniature fractal quasi-elliptic bandpass filter (BPF) with two transmission zeros (TZs) near each skirt is investigated in this paper. The TZs are created by source-load coupling between the input and output E-shaped feeding structures. By using a dual-mode Minkowski fractal shorted stub loaded open-loop resonator, the proposed BPF achieved a size reduction of 97.5% compared with the conventional square dual-mode loop BPF. Even mode analysis is adopted to characterize the Minkowski structure. The frequency responses of the current BPF were simulated and measured with good agreement.     

基于CPW-微带过渡的超宽带滤波器

通过加载枝节,改进了基于CPW-微带过渡结构的超宽带带通滤波器。在微带线的中间采用了一个T型枝节以增强其选择性。该T型枝节能够在通带的上下边缘分别产生两个传输零点(2 GHz 与14 GHz)。此外,通过扇形开路枝节引入一个传输零点,将滤波器的上阻带延伸到了16 GHz。最后,加工并测试了一个滤波器用于验证。测试结果表明:该滤波器能够实现131% (2. 6 GHz ~12. 5 GHz)的相对带宽;同时,实测结果和仿真基本一致。     

Compact wideband bandpass filter using quad mode resonator

This paper presents a compact wideband bandpass filter for TETRA band applications. The proposed filter design is based on a quad mode resonator designed using small rectangular loop loaded with four Stepped Impedance Stubs (SISs) and a short circuit stub. The four modes of the resonator help in generating a wide passband. The use of SISs makes the filter compact. In addition to four transmission poles, the resonator inherently generates a transmission zero above the higher end of passband. Two transmission zeros are generated by the input/output coupling which helps in increasing the selectivity and also for achieving wide stopband. This filter provides a 3 dB fractional bandwidth of 30.33% and maximum insertion loss of 1.3 dB at the center frequency 0.36 GHz with a compact size of 0.125 λ_g × 0.085 λg (4.1 × 2.78 cm²).     

基于枝节加载谐振器的新型三频带通滤波器设计

提出了一种新型平面三频带通滤波器,该滤波器由一个加载短路枝节的阶梯阻抗谐振器,一对加载开路枝节的背靠背E型谐振器,以及包含源负载直接耦合的馈电结构组成.所采用的枝节加载谐振器的多模工作特性使滤波器的体积大大减小,同时每个通带的位置及其耦合特性都能够独立调谐.另外,通过源负载直接耦合引入通带两侧的传输零点,实现了滤波器良好的频率选择性.最后设计并加工了一款高选择性小型化三频带通滤波器,其三个通带的中心频率分别为2.0GHz,3.95GHz和6.35GHz,插入损耗均小于2.5dB,带内回波损耗均优于14dB,实验结果与仿真结果吻合良好.     

Compact Ultra-Wideband Conductor-Backed Coplanar Waveguide Bandpass Filter With a Dual Band-Notched Response

This work presents a novel ultra-wideband (UWB) bandpass filter (BPF) based on a conductor-backed coplanar waveguide structure with tunable transmission zeros. The symmetrical UWB BPF, which consists of the broadside-coupled transitions and the stub resonators in double-layer configuration, achieves a UWB bandwidth with transmission zeros. For characterizing this structure, the equivalent-circuit model is established to realize a four-pole response with two transmission zeros located close to the passband edges. To eliminate the interference of the coexisting wireless local area network (WLAN) within the UWB spectrum, two slotlines are symmetrically arranged on the ground plane of UWB BPF to generate the band-notched frequencies at 5.2 and 5.8 GHz simultaneously. The proposed UWB BPFs have the advantages of compact size, low insertion loss, good selectivity, and flat group delay. All results obtained from the equivalent-circuit model and the full-wave simulation are verified by measurements.      

Design of Wide-Band, Sharp-Rejection Bandpass Filters With Parallel-Coupled Lines

An edge-coupled quarter wavelength resonator and half-wavelength open stubs are used for designing a highly selective wideband bandpass filter (BPF). A homogeneous medium is considered and the even-odd mode approach is used for filter analysis. Next, a microstrip line implementation procedure is described. The filter has sharp rejection, wide stopband, low insertion loss (IL), and fabrication simplicity. A prototype BPF having 69.5% 3-dB fractional bandwidth (FBW) is fabricated. A simple stub modification extends the upper 20-dB stopband to five times that of the filter upper cutoff frequency. Passband IL is within 1.6dB     

A Compact Ultra-Wideband Bandpass Filter Based on Split-Mode Resonator

A compact ultra-wideband (UWB) bandpass filter is proposed based on the coplanar-waveguide (CPW) split-mode resonator. By suitably introducing a short-circuited stub to implement the shunt inductance between two quarter wavelength CPW stepped-impedance resonators, a strong magnetic coupling may be realized so that a CPW split-mode resonator may be constructed. Moreover, by properly designing the dual-metal-plane structure, one may accomplish a microstrip-to-CPW feeding mechanism to provide strong enough capacitive coupling for bandwidth enhancement and also introduce an extra electric coupling between input and output ports so that two transmission zeros may be created for selectivity improvement. The implemented UWB filter shows a fractional bandwidth of 116% and two transmission zeros at 1.705 and 11.39 GHz. Good agreement between simulated and measured responses is observed.     

Small Ultra-Wideband (UWB) Bandpass Filter With Notched Band

A compact ultra-wideband (UWB) bandpass filter (BPF) with notched band has been proposed and implemented in this letter. H-shaped slot is studied and adopted to tighten the coupling of inter-digital capacitor in order to improve the BPF's performance. Three pairs of tapered defected ground structures (DGS) are formed to assign their transmission zeros towards the out of band signal, thereby suppressing the spurious passband. Combining these two structures we obtain a small sized UWB BPF. Meander line slot is developed to reject the undesired wireless local-area network (WLAN) radio signals. An experimental UWB filter with notched band was fabricated with 35% less length as compared to an embedded open-circuited stub. The measured BPF insertion loss is less than 1.0 dB throughout the pass band of 2.8 to 10.8 GHz, the variation of group delay less than 0.20 ns in this band except for the notched band, and a wide stopband bandwidth with 20 dB attenuation up to at least 20.0 GHz.