摘要
工作于TE01p模的圆柱腔具有高Q值低损耗的优点,但干扰模的存在使其宽频带的应用受到限制。文章在分析了圆柱腔中干扰模的场分布特点的基础上,设计了一种新的反射型馈电方式,采用宽带反相功分器将微波信号分两路馈入腔中,结合部分螺旋波导即可实现圆柱腔TE01p模式的纯净度。给出的测量结果表明,与采用传统直接馈电方式的谐振腔相比,在不损失品质因数的情况下,获得了良好的滤波性能。
Aim. The TE01p mode cylindrical cavity has broadband is not satisfactory because of the existence disturbing mode is presented in some detail in the very high quality factor(Q-factor), but its use on the of disturbing mode. A new structure for filtering out paper; microwave signal is divided into two parts completely reversed in phase and fed into a cavity; with the help of a part of helical waveguide, this structure obtains the purified TE01p mode in the whole working band. In this abstract, the following two topics are explained. (1) the principles of mode filtering, and (2) the measurement of the broadband reversed-phase structure. Topic I describes the method for restraining circumferential disturbing mode, which cannot be eliminated by the helical waveguide. In topic 2, the reflection coefficient and Q-factor of a cylindrical resonator with the new structure are measured. The measurement results and their comparison with other conventional structures, given in Figs. 3 and 4 and Table 1, indicate preliminarily that the new structure effectively filters out all the disturbing modes except TE01p working mode and that the values of Q-factor measured for the new structure and other conventional structures are in good agreement.
出处
《西北工业大学学报》
EI
CAS
CSCD
北大核心
2008年第5期612-615,共4页
Journal of Northwestern Polytechnical University
基金
陕西省自然科学基础研究计划基金(2006F15)
西北工业大学科技创新基金(2006CR11)资助
关键词
模式滤波
馈电
反射式
反相
品质因数
resonators, mode filter, reversed-phase structure, quality factor(Q-factor)
