基于人工传输线的小型平衡型Wilkinson功分器（英）

提出了一种基于人工传输线并采用双面平行带状线实现的小型平衡型Wilkinson功分器。该器件采用人工传输线取代传统传输线以减少电路尺寸,同时引入双面平行带状线结构用来实现功分器平衡的功能。设计的功分器尺寸仅为传统Wilkinson功分器的25%。测试结果表明,设计制作的平衡Wilkinson功分器在0.83 GHz至1.05 GHz带宽范围内相位平衡度1.28,幅度平衡度0.17 dB,回波损耗大于16.79 dB,端口隔离度大于16.21 dB。测量结果和仿真结果吻合良好,证实了该功分器具有良好的性能。     

基于人工传输线的小型平衡型Wilkinson功分器（英文）

提出了一种基于人工传输线并采用双面平行带状线实现的小型平衡型Wilkinson功分器。该器件采用人工传输线取代传统传输线以减少电路尺寸,同时引入双面平行带状线结构用来实现功分器平衡的功能。设计的功分器尺寸仅为传统Wilkinson功分器的25%。测试结果表明,设计制作的平衡Wilkinson功分器在0.83GHz至1.05GHz带宽范围内相位平衡度±1.28°,幅度平衡度±0.17dB,回波损耗大于16.79dB,端口隔离度大于16.21dB。测量结果和仿真结果吻合良好,证实了该功分器具有良好的性能。     

基于人工传输线的小型微带Wilkinson功分器

提出了一种基于人工传输线的小型微带Wilkinson功分器,该器件使用由LC元件构成的人工传输线取代传统传输线,并使用交指电容和贴片电阻进行端口隔离。设计制作的Wilkinson功分器中心频率为915MHz的微带3dB功分器,等幅同相地将输入功率分配到2个输出端口,尺寸仅有传统Wilkinson功分器的25%,端口幅度平衡度±0.2dB,相位平衡度±1°。实验结果表明:功分器带宽为0.49～1.20GHz,插入损耗小于3.2dB,回波损耗大于10dB,仿真结果和测量结果吻合较好。     

基于传输线变压器的超短波功分器电容补偿原理

设计了一种基于传输线变压器的超短波功分器,利用电报方程完成了对超短波功分器的建模,分析了功分器输入端驻波比、传输系数、分离端隔离度等性能,以及在不同位置补偿电容对功分器性能的影响。数值计算结果表明,补偿适当的电容能够使功分器输入端驻波比减小,传输系数和分离端隔离度增大。实验结果表明,补偿电容后功分器性能变化趋势与数值计算结果吻合。     

基于异向传输线的亚波长谐振腔设计

 提出了一种新型的谐振腔，该谐振腔的谐振条件与普通谐振腔不同，其两个端面的总相移不必是180°的正整数倍。这种谐振腔由异向传输线和右手传输线两种不同性质的传输线级联构成，它利用耦合腔链作为异向传输线实现负相移，同轴波导作为右手传输线实现正相移，使谐振腔两个端面的总相移为零，满足谐振腔的谐振条件。由于它与传统谐振腔谐振条件不同，理论证明这种谐振腔的长度可远远小于传统谐振腔，设计实例的仿真结果表明这种新型谐振腔的长度最短仅为传统谐振腔的1/7。     

0.22 THz二维电磁带隙波导和阵列天线设计

基于二维电磁带隙（EBG）结构,设计了工作在0.22 THz的直波导传输线和90弯波导传输线。数值模拟结果显示:直波导和弯波导的S21参数在0.22 THz处均大于10-5 dB,20 GHz模拟频带内的S21参数分别大于-0.001 dB和-0.003 5 dB。EBG结构很好地阻止了电磁波在电磁带隙内部的传播。基于EBG结构波导,设计了3 dB功分器和H面扇形喇叭阵列天线。数值模拟结果显示:功分器的S21参数在0.22 THz处为-3 dB,阵列天线方向性为17.1 dBi,具有较小的旁瓣和后瓣,E面和H面方向图均具有良好对称性。     

复合左右手技术的二元阵天线的计算及测量

为了克服微带天线的横向尺寸需要满足半个波长的限制,本文提出了一种基于复合左右手传输线技术的二元阵天线.该天线阵由结构相同的两个天线阵单元构成:天线阵单元由3个辐射片、辐射片之间的交指电容和导通辐射片和接地板的短路针组成.辐射片、短路针、天线阵的基片和接地板构成了复合左右手传输线结构.天线阵单元之间通过弓形连接线连接,通过调节弓形连接线两个端口到馈源之间的距离来调节天线阵单元之间的初始相位差.在关心频段内,数值计算得到的二元阵天线的S参数与实际测量结果符合得很好,并且零阶谐振频率与用等效电路理 关键词： 天线 异向介质 左右手传输线 增益     

新型复合左右手传输线及其在滤波器设计中的应用

开环谐振器阵列由于结构庞大, 难以实现小型化, 而逆开环谐振器则由于刻蚀在接地板上, 容易对微波电路中其他部件造成干扰. 针对上述问题, 提出了一种新型双层介质复合左右手传输线结构, 并提取了其等效相对介电常数和等效相对磁导率, 然后分析了新结构的尺寸参数对其传输特性的影响程度, 最后将一种新型Minkowski分形曲线应用于该结构, 设计和制作了两款双频滤波器, 验证了该复合左右手传输线的双频特性.     

有耗地面上架空线缆串扰研究等效电路模型

基于延迟抽取宏模型算法,将有耗地面上架空传输线分成多段求解,每段分成无损和有损部分。通过矢量匹配(VF)法对地阻抗相关参量进行匹配,利用HSPICE中的Laplace变换建立有损部分的等效电路,结合现有的无损传输线等效电路组成每一段的等效电路,然后将每段等效电路串联起来组成整个传输线的等效电路模型。与时域有限差分(FDTD)法进行对比,结果验证了该方法的正确性。同时对端接瞬态抑制二极管的算例进行了分析,证明了提出的等效电路模型能够轻松解决非线性负载问题。     

Z箍缩装置外磁绝缘传输线全尺寸粒子模拟研究

采用电路模拟得到的柱孔结构处向外磁绝缘传输线传输的电压反射波来等效Z箍缩装置中的柱孔结构至丝阵负载部分,实现了Z箍缩装置四层外磁绝缘传输线的全尺寸粒子模拟.为了进一步提高柱孔结构和丝阵负载等效电路模型的精度,通过粒子模拟,对电路模拟得到的电压反射波进行了修正.PBFA Z装置四层外磁绝缘传输线部分的全尺寸粒子模拟结果表明,修正电压反射波后得到的绝缘堆处电压波形和电流波形比原有电路模拟结果更接近实验结果.另外,利用粒子模拟结果分析和解释了丝阵负载内爆对外磁绝缘传输线脉冲功率传输物理过程的影响. 关键词： Z箍缩 外磁绝缘传输线 粒子模拟 等效电路模型     

Nonlinear properties of the lattice network-based nonlinear CRLH transmission lines

The nonlinear properties of lattice network-based(LNB) composite right-/left-handed transmission lines(CRLH TLs)with nonlinear capacitors are experimentally investigated.Harmonic generation,subharmonic generation,and parametric excitation are clearly observed in an unbalanced LNB CRLH TL separately.While the balanced design of the novel nonlinear TL shows that the subharmonic generation and parametric processes can be suppressed,and almost the same power level of the higher harmonics can be achieved over a wide bandwidth range,which are difficult to find in conventional CRLH TLs.     

Multiband small zeroth-order metamaterial antenna

A novel resonant metamaterial antenna based on the Composite Right/Left-Handed (CRLH) transmission line (TL) model is presented. The proposed small antenna is designed to operate simultaneously over multiple wireless services (UMTS-WLAN-WIMAX)     

Circular polarized electronically-controlled antenna array based on CRLH-TL

In this paper, a circular polarized electronically-controlled scanning microstrip antenna array is designed, which is based on composite right left-handed transmission line (CRLH TL) and is realized by varactor diodes. Proposed electronically-controlled antenna arrays till now are always linear-polarized as the axial ratio (AR) may be spoiled by the DC feed line, especially in the CRLH TL based case. A more separated CRLH TL integrated with active lumped elements is utilized to solve the problem. The antenna array is composed of the CRLH microstrip transmission line structure and circular polarized microstrip antenna. The direction of the main lobe varies from ?1° to ?20 ° by continuously modifying the varactor diodes bias voltages from 0 to 20 V with 5 V as a step. The AR remains below 3 dB in the scanning range. The simulation and experimental results show a good consistence.     

基于新型SCRLHTL结构的超宽带滤波器设计

提出了利用去除并联电感实现简化左右手（SCRLH）复合传输线（TL）结构的方法，及利用该方法实现超宽带滤波器的设计。设计了一个中心频率为7．05GHz、相对带宽约为70％、带内群延时小于0．4ns的超宽带滤波器。分别应用HFSS和Designer软件对该器件进行了微波全波仿真及电路仿真。用不同方法仿真获得的结果吻合良好。由此证明了用去除并联电感的新型SCRLHTL结构实现滤波器的正确性与有效性。     

Design of Low-Profile Millimeter-Wave Substrate Integrated Waveguide Power Divider/Combiner

A low-profile millimeter-wave substrate integrated waveguide (SIW) power divider/combiner is presented in this paper. The simplified model of this compact SIW power dividing/combining structure has been developed. Analysis based on equivalent circuits gives the design formula for perfect power dividing/combining. In order to verify the validity of the design method, a four-way SIW power divider/combiner circuit operating at Ka band is designed, fabricated and measured. Good agreement between simulated and measured results is found for the proposed passive power divider/combiner. Experiments on the four-way passive divider/combiner back-to-back design demonstrate a minimum overall insertion loss of 1.5 dB at 31.1 GHz, corresponding to a power-combining efficiency of 84%. The measured 10-dB return loss bandwidth is demonstrated to be 2.2 GHz, and its 0.5-dB bandwidth was 2 GHz.     

Design of Millimeter-Wave Power Divider with Coupled Line

A novel 35GHz 3dB power divider using coupled transmission line is presented. Unlike conventional Wilkinson divider circuit, only the 50 transmission lines are used in the design. The impedance matching can be achieved by coupled transmission line even mode characteristic impedance. The predicated and measured performances agree well.     

Broadband microwave frequency doubler based on left-handed nonlinear transmission lines

A bandwidth microwave second harmonic generator is successfully designed using composite right/left-handed nonlinear transmission lines(CRLH NLTLs) in a GaAs monolithic microwave integrated circuit(MMIC) technology. The structure parameters of CRLH NLTLs, e.g. host transmission line, rectangular spiral inductor, and nonlinear capacitor,have a great impact on the second harmonic performance enhancement in terms of second harmonic frequency, output power, and conversion efficiency. It has been experimentally demonstrated that the second harmonic frequency is determined by the anomalous dispersion of CRLH NLTLs and can be significantly improved by effectively adjusting these structure parameters. A good agreement between the measured and simulated second harmonic performances of Ka-band CRLH NLTLs frequency multipliers is successfully achieved, which further validates the design approach of frequency multipliers on CRLH NLTLs and indicates the potentials of CRLH NLTLs in terms of the generation of microwave and millimeter-wave signal source.     

Dual and broadband power dividers at microwave frequencies based on composite right/left handed (CRLH) lattice networks

This paper proposes a dual-band power divider operating at GHz frequencies and implemented by means of impedance transformers (also called inverters) based on lattice networks and transmission line sections. The dual-band functionality of the proposed device is achieved thanks to the composite right/left handed (CRLH) behavior of the impedance transformers, able to provide −90° and +90° phase shift at the first and second design frequencies, respectively, of the divider. By using such combination of transmission line sections and lattice networks, the characteristic impedance of the impedance transformers is roughly constant over wide bandwidths, with the results of broad operating bands. To demonstrate the possibilities of the approach, a prototype device is designed, fabricated and characterized.     

A MICROSTRIP PROBE COAXIAL WAVEGUIDE POWER DIVIDER/COMBINER

A novel power divider/combiner using microstrip probes array in the oversized coaxial waveguide is proposed in this paper. The simple electromagnetic modeling of this power dividing/combining structure has been developed. Analysis based on equivalent circuits gives the design formula for perfect power dividing/combining. A four-way waveguide power divider has been designed and fabricated. The measured results agree well with the simulated results. The measured 15-dB return loss bandwidth of this waveguide power divider is demonstrated to be 28.6% and its 0.5-dB insertion loss bandwidth 41.3%.