基于平行带线的新型强阻带抑制带通滤波器被引量：3

A Novel Bandpass Filter with Enhanced Stopband Rejection Based on Double Side Parallel-Strip Line

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摘要提出一种新型的基于平行带线的带通滤波器,在不增加电路尺寸的基础上增强了滤波器的阻带抑制.该滤波器以平行带线进行馈电,包含顶层和底层2个完全相同的电路,两层电路中电流反相,可以认为这2个电路是级联工作的.与传统的微带线构成的相似结构和同样带宽的滤波器相比,该滤波器具有更强的阻带抑制、更陡峭的衰减以及更小的尺寸,其中阻带抑制最大能提高近50%.仿真和测试结果对比表明,两者吻合较好,验证了设计方法的可靠性. A novel bandpass filter based on double side parallel-swip line （DSPSL） is presented in this paper, which has stronger rejection in the stopbands, without size increasing. The proposed filter consists of two identical circuits on the bottom layer and top layer. The two circuits can be treated as a cascaded connection due to the out-of-phase currents of the two layers fed by DSPSL. For the same configurations and passband bandwidth, the proposed bandpass filter allows sharper roll-off, higher rejection in the stopbands, and has more compact size, and the maximum stop band rejection can increase nearly 50%, compared with that of the bandpass filter using microstrip line. Simulated and measured results indicate the two match well. which verifiv that the proposed idea is reliable.

作者唐慧周立衡陈建新

机构地区南通大学电子信息学院

出处《南通大学学报（自然科学版）》 CAS 2011年第3期1-4,共4页 Journal of Nantong University(Natural Science Edition)　

基金国家自然科学基金项目(60901041) 江苏省自然科学基金项目(BK2010272) 南通市应用研究计划项目(K2010052)

关键词平行带线阻带抑制带通滤波器传输零点 parallel-strip line stopband rejection bandpass filter transmission zero

分类号 TN710.6 [电子电信—电路与系统]

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参考文献10

1Lee S Y, Tsai C M. New cross-coupled filter design using improved hairpin resonators [J]. IEEE Trans on Microwave Theory Tech, 2000, 48 (12) : 2482-2490.
2Kuo J T, Maa M J, Lu P H. A microstrip elliptic function filter with compact miniaturized hairpin resonators [ J ]. IEEE Microwave and Guided Wave Lett, 2000, 10(3):94-95.
3Hong J S, Lancaster M J. Coupling of microstrip square open-loop resonators for cross-coupled planar microwave fihers[J]. IEEE Trans on Microwave Theory Tech, 1996, 44 ( 11 ) :2099-2109.
4Djaiz A, Denidni T A. A reduced-size two-layer bandpass fiher[J]. Microwave and Optical Technology Lett, 2005, 44 (6) :512-515.
5Hong J S, Lancaster M J. Aperture-coupled microstrip open- loop resonators and their applications to the design of novel microstrip bandpass filters [J ]. IEEE Trans on Microwave Theory Teeh, 1999, 47(9):1848-1855.
6Kim S G, Chang K. Uhrawide-band transitions and new mi- crowave components using double-sided parallel-strip lines [J]. IEEE Trans on Microwave Theory Tech, 2004, 52(9) : 2148-2152.
7Chen Jianxin, Zhang Xiuyin, Xue Quan. Dual-band band- pass filter and diplexer based on double-sided parallel-strip line[C]// IEEE MTr-s Int Microw Syrup Dig, June 15- 20, 2008, Atlanta, GA. New York:IEEE, 2008:675-678.
8Wang Xiaohua, Xue Quan, Choi Waiwa. A novel ultra- wideband differential filter based on double-sided parallel- strip line[J]. IEEE Microw Wireless Compon Lett, 2010, 20(8) :471-473.
9Chiu L, Xue Quan, Chan C H. Performance enhancement of microwave circuits using parallel-strip line[J]. IEEE Po- tentials, 2010, 29(5) : 16-21.
10Hsieh L H, Chang K. Tunable microstrip bandpass filters with two transmission zeros[J]. IEEE Trans on Microwave Theory Tech, 2003, 51(2):520-525.

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2SHOBEYRI M, SAMIEI M H V. Compact uhra-wideband band-pass fiher with defect ground structure[J]. Progress in Elec- tromagnetics Research Letter, 2008 (4) : 25-31.
3HUANG J Q, CHU Q X. Compact UWB band-pass fiher utilizing modified composite right/left-hand structure with cross coupling[J]. Progress in Electromagnetics Research, 2010, 107(3) : 179-186.
4WEI F, CHEN L, SHI X W. Compact UWB band-pass filter with notched band[J]. Progress in Electromagnetics Research, 2008(4): 121-128.
5HSIAO P Y, WENG R M. Compact open-loop UWB fiher with notched band[J]. Progress in Eleetromagnetics Research, 2009 (7): 149-159.
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10李平安,张玮,俞卞章,许家栋.雷达目标识别的改进双谱法[J].西北工业大学学报,1999,17(2):285-289.

南通大学学报（自然科学版）

2011年第3期

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基于平行带线的新型强阻带抑制带通滤波器被引量：3

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基于平行带线的新型强阻带抑制带通滤波器 被引量：3

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基于平行带线的新型强阻带抑制带通滤波器被引量：3