一种微带带通滤波器的ADS设计方法

带通滤波器(BPF)相比于带阻、低通、高通滤波器,是使用最多、最重要且最难设计的一类滤波器。随着近些年计算机性能的提高,波CAD技术的高速发展,高频电磁仿真软件的仿真精度和效率不断提高,在传统的等效电路设计方法的基础上,利用高频电磁仿真软件,提高设计精度,减少微波滤波器的研制设计周期,因此使用CAD软件技术来实现微波滤波器的设计及理论研究具有现实意义。文章对微波滤波器的特性进行分析后,给出了1/4波长微带线射频带通滤波器设计的ADS仿真。     

移动通信中微带双工器的设计与仿真

本文介绍了用于无线移动通信中双工器的设计原理和方法,该双工器采用微带发夹型结构,由两个窄带带通滤波器(BPF)通过适当的匹配电路组成.文中给出了这两个带通滤波器的详细设计步骤,设计仿真结果与实际测量结果吻合良好.     

基于LCP基板的超宽带滤波器的设计与实现

高分子液晶聚合物(LCP)以其优异的高频特性,被认为是继低温共烧陶瓷(LTCC)后的下一代微波毫米波的基板和微组装材料。本文基于五层LCP基板设计了一款超宽带(UWB)带通滤波器(BPF),采用四分之一波长线来替换半波长的MMR结构,并且通过折叠传输线的方法进一步缩小BPF滤波器的体积。利用HFSS仿真软件对滤波器进行了建模仿真。通过标准的LCP多层工艺,制备了超宽带滤波器。测试结果表明,在2.5 GHz到10.4 GHz的频带范围内,插入损耗优于-5 dB,回波损耗小于-15 dB,带外抑制高于-30 dB。其测试结果和仿真结果能够较好地吻合。该滤波器的成功设计为超宽带通信系统的小型化提供了一个重要的参考。     

双传输零点LTCC带通滤波器的设计与制作

采用仿真软件Ansoft HFSS,构建了具有双传输零点的LTCC带通滤波器(BPF)的物理模型,即在无传输零点的二阶带通滤波器的基础上并联一个反馈电容来实现双传输零点。根据仿真结果,采用LTCC工艺制作了封装尺寸为1206,具有两个传输零点的片式BPF样品,用矢量网络分析仪Agilent 8722ES进行测试。结果表明:测量结果与仿真数据基本相符,滤波器中心频率为2.7GHz。该滤波器适用于日益小型化的移动通信设备。     

基于AD9957的正交上变频发射机设计和仿真

简要介绍了射频数字化短波发射机的基本原理以及AD9957芯片的主要功能,提出了一种利用AD9957芯片来实现射频数字化短波发射机内部数字上变频模块和数/模转换模块的方案,并对软件无线电通信中使用高效数字滤波器,即半带滤波器和梳状积分滤波器的性能进行了研究与分析,使用Matlab软件对AD9957在短波发射机中的应用部分进行仿真分析,对每一个模块的功能进行了实现。     

GSM手机发射机设计的关键技术

本文介绍GSM手机发射机部分的设计技术.重点介绍功率检测器、功放、滤波器和前置放大器在整个发射机的工作原理,设计方法.在检测器部分,设计关键是较好的可预测性;功放要求较高的效率;滤波器的设计在发射机的设计中是最有技巧性的,本文介绍三种滤波器的设计.     

一种应用于GSM,TD-SCDMA和WCDMA多模发射机的基带低通滤波器设计

本文设计了一款应用在GSM,TD-SCDMA和WCDMA多模发射机中的可配置基带低通滤波器。为了满足3GPP发射频罩要求和限制发射机在接收频段的噪声泄露,本文对滤波器的带外噪声进行了分析和优化设计。由于开关电容阵列中开关的亚阈值泄露电流引起信号失真,本文提出了一种电容旁路技术可以降低亚阈值泄露电流从而提高电路的线性度。本文采用了一种自动频率校准电路来补偿截止频率偏差。仿真结果表明,滤波器在1.2V电源电压下可以实现47dBm的IIP3,并且滤波器的带外噪声满足TD-SCDMA和WCDMA SAW-less发射机的要求。滤波器具有-40到0dB的可变增益范围,增益步长为 0.5dB。滤波器的截至频率可配置,适用于GSM,TD-SCDMA和WCDMA多模发射机。滤波器电路在0.13μm CMOS工艺下实现,电源电压为1.2V,消耗电流3.6mA。     

基于复合左右手传输线的双频带通滤波器设计

根据复合左右手传输线(CRLH TLs)在实现双频微波器件领域的独特优势,设计实现了一个微带结构双频带通滤波器(BPF)。通过设计CRLH TLs的参数,可以任意选取双频滤波器两个通带的中心频率。文中给出了一个中心频率为1.47GHz和2.3GHz的双频带通滤波器设计实例,并通过仿真和实验结果验证设计方法的有效性。利用CRLH TLs设计双频器件,可以在实现双频工作同时保持结构的紧凑性,具有很好的工程应用价值。     

基于HFSS设计同轴腔调谐滤波器

同轴腔调谐滤波器在军事通信设备中具有广泛应用.论述了该类滤波器的设计原理,详细分析了腔间耦合孔和输入、输出耦合环的位置和大小的设计,在此基础上应用高频结构仿真软件(HFSS),对L波段调谐滤波器的实例进行仿真设计.结果表明仿真拟合准确,说明应用HFSS仿真软件能够很好的描述调谐滤波器的关键设计内容.     

电视发射机数字化改造过程中关于输出滤波器的分析

输出滤波器是电视发射系统中的重要组成部分,数字电视发射机对输出滤波器的要求更高.对输出滤波器的改造是现有模拟电视发射机改造为数字电视发射机的一个重要内容.讨论了电视发射机输出滤波器的类型、技术指标、数字电视发射机对输出滤波器的要求及改造方法.     

Design of an RF Low-Noise Bandpass Filter Using Active Device Reduction Technique

This letter presents a new design for the radio frequency low-noise bandpass filter (BPF) using the active device reduction technique. In a conventional active BPF based on the negative resistance method, the number of active devices depends on the order of the BPF. In the proposed design, the number of active devices is reduced in half, using the suggested new technique. Compared with the conventional active BPF, the proposed one shows better noise figure and consumes less power. We apply this technique to the design of the second order BPF and verify that the measured results exhibit good active filter performances     

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.     

Design of Switchable and Reconfigurable Semi‐lumped Wideband Bandpass Filter

A switchable single‐wideband (SWB)‐to‐dual‐wideband (DWB) bandpass filter (BPF), which is realized by using lumped switches, is presented in this paper. By alternating the operation modes—ON and OFF—in which the ON mode is achieved by placing the capacitors at the switching spots and the OFF mode is achieved by replacing the capacitors with inductors, DWB‐to‐SWB BPF can be achieved on the same device. In addition, by changing the capacitor values, the center frequency (CF) of the lower passband of DWB BPF can be easily tuned from 1.69 GHz to 2.22 GHz, while the higher passband stays almost unchanged. As an example, an SWB‐to‐DWB BPF is designed, fabricated, and measured. This BPF exhibits good performance including wideband, high isolation, compact size, and ability to switch.     

Dual-mode dual-band bandpass filter for single substrate configuration

A novel dual-mode dual-band bandpass filter (BPF) is proposed that uses a bi-interdigital coupling structure for a single substrate configuration. The BPF consists of a microstrip feed network, ground embedded slots, and outer and inner loop resonators which are excited over bi-interdigital coupled lines with tight coupling in the two passbands. The filter design, analysis via the equivalent circuit of the proposed BPF and the experimented results are dealt with.     

A new compact LTCC bandpass filter using negative coupling

This letter presents the design and realization of a new compact bandpass filter (BPF) fabricated on multilayered ceramic substrates. This BPF features coupled resonators with negative coupling coefficients. A BPF with center frequency 2.45 GHz is designed and fabricated. Its size is only 2.0 mm/spl times/1.8 mm/spl times/0.67 mm when implemented by a standard low temperature co-fired ceramic technology. The size reduction is due to the higher coupling coefficient between the negatively-coupled resonators than the positively-coupled ones, allowing tighter space between the resonators. The measured insertion losses of the previous BPF were less than 3dB and return losses more than 18dB in the passband. The measured result agrees very well with the electromagnetic (EM) designed response.     

Compact and Low Loss Dual-Band Bandpass Filter Using Pseudo-Interdigital Stepped Impedance Resonators for WLANs

In this letter, pseudo-interdigital stepped impedance resonators (PI-SIRs) are used to design the bandpass filter (BPF) with dual-band response. By tuning the impedance ratio (K) and physical length of SIRs, the BPF has good dual-passband performances at 2.4/5.2GHz and high isolation between the two passbands. It is shown that the dual-band BPF has a smaller area and lower insertion loss in comparison of previous works. Good agreement is shown between the full-wave electromagnetic simulation and the measurement     

A Ka-band narrow bandpass filter using LTCC technology

A Ka-band low-temperature co-fired ceramic (LTCC) narrow bandpass filter (BPF) is presented first. This BPF shows a very narrow 3 dB fractional bandwidth of 4.5% centered at 28.7 GHz. The advantages of multilayered LTCC technology such as high integration and vertical stacking capabilities were employed to design a three-dimensional interdigital end-coupled embedded microstrip narrow BPF. The difficulties in controlling the precise distance between two adjacent resonators in LTCC end-coupled BPF were overcome by locating the resonators on different layers. The measured insertion loss is 3 dB at 28.7 GHz.     

Switchable Embedded Notch Structure for UWB Bandpass Filter

A reconfigurable ultra-wideband (UWB) bandpass filter (BPF) with switchable notch for UWB system is presented. The UWB BPF is embedded with two identical switchable notch structures, in which PIN diodes are used for electronic switching. A bias circuit for UWB applications was investigated and designed to control the state of PIN diodes in order to activate or deactivate the notch without an affect on the response of the BPF. A demonstrator for this type of switchable notch UWB filter is designed and fabricated. Simulated and measured results are described.      

A Balun-BPF Using a Dual Mode Ring Resonator

In this letter, a Balun-bandpass filter (BPF) is proposed by using a dual-mode ring resonator. The Balun-BPF is not a simply combined or integrated component of a BPF and a Balun but a single BPF with the balun function. We obtained the proper balanced outputs and two-pole BPF characteristic by symmetrically placing the output ports at lambda/2 distance from each other on the dual-mode ring resonator. The fabricated Balun-BPF has a bandwidth of 40 MHz and an insertion loss of 2.4 dB at a center frequency of 2.45 GHz. The differences between the two outputs are 180-184deg in phase and within 1dB in magnitude. The measured frequency responses agree well with simulated ones.