排序方式: 共有7条查询结果,搜索用时 15 毫秒
1
1.
This paper presents a novel low-pass filter (LPF) with sharp rejection, wide stopband and compact size, which are realized by the defected ground structure (DGS) and the defected microstrip structure (DMS). The equivalent circuit model is proposed and the circuit parameters are extracted by the circuit simulation software. The parameters measured are 3 dB cutoff frequency fc of 5.2 GHz, the insertion loss less than 0.5 dB from DC to 4.0 GHz and S21 less than -20 dB within the wide stopband from 6 GHz to 16 GHz. The results of the circuit optimization agree well with those of the full wave simulation and the measured ones, which validate the effectiveness of the equivalent circuit model. The size of the proposed LPF is decreased compared with normal LPF. This LPF can be applied in rectennas to eliminate high order harmonics. 相似文献
2.
设计了一种基于缺陷地结构(DGS)滤波器的高效率整流天线,可应用于低功率条件下的无线能量传输系统中。鉴于缝隙耦合微带天线具有较宽的阻带特性和高增益,因而被用于整流天线的接收天线,仿真得到该天线的谐振频率为5.8GHz,增益为8.2d B。整流电路采用DGS直通滤波器,以抑制交流信号传输到负载而被消耗。应用高频仿真软件HFSS对天线和滤波器进行仿真设计,应用ADS射频仿真软件对整流天线系统进行了仿真优化。仿真结果表明,该整流天线在3d Bm输入功率条件下,直流-微波转换效率达到了51.8%。 相似文献
3.
针对传统的缺陷地结构品质因数低、不足以产生尖锐的谐振特性问题, 提出了一种新颖的S形缝隙缺陷地结构.与传统的缺陷地结构相比, 该结构具有更高的品质因数、相对更简单而紧凑的布局和更陡峭的阻带特性. 通过分析其传输特性提取了该结构的等效电路模型, 推导了其结构参数的设计方程, 研究了该结构的传输特性随结构参数变化的规律, 并总结了设计该S形缝隙缺陷地结构的经验方法. 根据此方法设计加工了一个中心频率为4.64 GHz的S形缝隙缺陷地结构样品, 其品质因数高达39.66, 尺寸大小仅为5.00mm×1.40mm, 谐振带陡峭而通带插入损耗小, 测量结果和仿真结果相吻合, 从而验证了该S形缝隙缺陷地在实际工程上的适用性. 相似文献
4.
茂名热电厂升压水泵及液控止回蝶阀控制回路存在接线复杂,维护困难、工作可靠性差及自动化水平低的问题.在DCS改遗中,通过就地安装远程控制柜,用远程光纤接八#3、4机组DCS系统的方法,实现了升压水泵及液控止回蝶阀的DCS控制改造,使其作为#3、4机组DCS系统的一个子系统,大大提高了自动化水平. 相似文献
5.
马宁 《天津工程师范学院学报》2008,18(4)
将微带线/共面波导混合结构与螺旋型缺陷接地结构结合,设计了通带范围3.1~10.6GHz的超宽带带通滤波器,获得了双通带的滤波特性。采用仿真的方法讨论了缺陷接地结构的尺寸与传输特性的关系。结果表明,新型的双通带带通滤波器具有一定的实用价值。 相似文献
6.
A novel defected ground structure (DGS) for the microstrip line is proposed in this paper. The DGS lattice has more defect parameters so that it can provide better performance than the conventional dumbbell-shaped DGS. Selectivity is improved by 97.2% with a sharpness factor of 24.6%. The method is applied to the design of a low-pass filter to confirm validity of the proposed DGS. 相似文献
7.
* A defected ground structure (DGS), realized byetching defects in backside metal ground, is devel-oped froma photonic bandgap (PBG) structure. DGScan change the equivalentcircuitand therefore changethe transformation characteristic of a microstrip line. PBG structure is a kind of artificial crystal, inwhich one dielectric material arranges periodically inanother. This structure can prevent the propagation ofthe electromagnetic wave in a special frequency band.PBG structure has a verybroa… 相似文献
1