摘要
基于缺陷态同轴布喇格波导的通带特性,该文采用多波耦合理论及AnsoftHFSS对一种工作频率为60GHz的新型波导滤波器原型进行了概念性设计,并进行性能分析。结果表明:大尺寸的缺陷态布喇格滤波器在高频工作时,主模与竞争模式之间的寄生耦合会破坏通带结构;当波纹幅度引入汉明窗分布,可以有效地消除这一负面影响。该滤波器具有通带窄(相对带宽小于0.1%)、中心插入损耗小(低于1.5dB)、结构横向大尺寸大(半径7-10mm)的优点,能够适用于毫米波段高功率应用场合中对窄频带信号选择。
Based on the pass-band characters of defected coaxial Bragg waveguides, a novel topology of narrow-band, band-pass millimeter-wave filter at 60 GHz is designed and analyzed by making use of the multi-wave interaction formulation as well as software Ansoft HFSS. It is found that, if a defected Bragg filter with a large transverse dimensional size operates at high frequency, the spurious coupling between the operating mode and the competing modes will spoil the pass-band structure; but fortunately, this negative effect can be suppressed by applying Hamming-window-function distribution to the ripples amplitude of the filter. Results show the filter has a narrow fractional bandwidth less than 0.1% with a low insertion loss below 1.5 dB and large dimensional size, which favors to select the specified narrow-band signal in high power applications.
出处
《电子与信息学报》
EI
CSCD
北大核心
2012年第8期2023-2027,共5页
Journal of Electronics & Information Technology
基金
国家自然科学基金(60871023)
广东省高校优秀青年创新基金(LYM10126)
东莞市高等院校
科研机构科技计划项目(2011108102011)资助课题
关键词
带通滤波器
窄带
同轴布喇格结构
波纹波导
Band-pass filter
Narrow band
Coaxial Bragg structure
Corrugated waveguide
