Design and Analysis of a Triple Stop-band Filter Using Ratioed Periodical Defected Microstrip Structure

Tao Jiang; Yanyan Wang; Yingsong Li

doi:10.1515/freq-2016-0057

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Design and Analysis of a Triple Stop-band Filter Using Ratioed Periodical Defected Microstrip Structure

Tao Jiang , Yanyan Wang und Yingsong Li

Veröffentlicht/Copyright: 28. Juni 2016

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Abstract

In this paper, a triple stop-band filter with a ratioed periodical defected microstrip structure is proposed for wireless communication applications. The proposed ratioed periodical defected microstrip structures are spiral slots, which are embedded into a 50 Ω microstrip line to obtain multiple stop-bands. The performance of the proposed triple stop-band filter is investigated numerically and experimentally. Moreover, the equivalent circuit model of the proposed filter is also established and discussed. The results are given to verify that the proposed triple stop-band filter has three stop bands at 3.3 GHz, 5.2 GHz, 6.8 GHz to reject the unwanted signals, which is promising for integrating into UWB communication systems to efficiently prevent the potential interferences from unexpected narrowband signals such as WiMAX, WLAN and RFID communication systems.

Keywords: Equivalent circuit; ratioed periodical defected microstrip structure; stop-band filter; spiral slot

Acknowledgment

This paper is funded by the International Exchange Program of Harbin Engineering University for Innovation-oriented Talents Cultivation. This work was also partially supported by the Navy Defense Foundation of China (4010403020102), the Science and Technology innovative Talents Foundation of Harbin (2013RFXXJ083), the Foundational Research Funds for the Central Universities (HEUCF131602, HEUCFD1433).

References

[1] “Revision of part 15 of the commission’s rules regarding ultra-wide-band transmission system,” First Note and Order Federal Communication Commission, ET-Docket 98–153, 2002.Suche in Google Scholar

[2] C. S. Kim, J. S. Park, D. Ahn, and J. B. Lim, “A novel 1-D periodic defect ground structure for planar circuits,” IEEE Microwave Guided Wave Lett., vol. 10, no. 4, pp. 131–133, April 2000.10.1109/75.846922Suche in Google Scholar

[3] J. S. Lim, C. H. Kim, D. Ahm, Y. C. Jeong, and S. Nam, “Design of low-pass filers using defected ground structure,” IEEE Trans. Microwave Theory Tech., vol. 53, no. 8, pp. 2539–2555, August 2005.10.1109/TMTT.2005.852765Suche in Google Scholar

[4] J. K. Xiao, Y. F. Zhu, and J. S. Fu, “Non-uniform DGS low pass filter with ultra-wide stopband,” in The 9th Int. Symp. Antennas, Propagation and EM Theory (2010 ISAPE), November 30-December 2, 2010.10.1109/ISAPE.2010.5696699Suche in Google Scholar

[5] N. Ghazali and S. Pal, “Planar UWB filter with multiple notched band and stopband with improved rejection level,” Frequenz J. RF-Eng. Telecommun., vol. 69, no. 5–6, pp. 207–218, March 2015.10.1515/freq-2014-0194Suche in Google Scholar

[6] J.-S. Lim, C.-S. Kim, Y.-T. Lee, D. Ahn, and S. Nam, “A spiral-shaped defected ground structure for coplanar waveguide,” IEEE Microwave Wireless Compon. Lett., vol. 12, no. 9, pp. 330–332, Sep. 2002.10.1109/LMWC.2002.803208Suche in Google Scholar

[7] D. Ahn, J. S. Park, C. S. Kim, Y. Qian, and T. Itoh, “A design of the low-pass filter using the novel microstrip defected ground structures,” IEEE Trans. Microwave Theory Tech., vol. 49, no. 1, pp. 86–93, Jan. 2001.10.1109/22.899965Suche in Google Scholar

[8] J. K. Xiao and W. J. Zhu, “New bandstop filter using simple defected microstrip structure,” Microwave J., vol. 54, no. 9, pp. 134–144, September 2011.Suche in Google Scholar

[9] S. Zhang, J. K. Xiao, Z. H. Wang, and Y. Li, “Novel low-pass filters using defected microstrip structure,” Microwave J., vol. 49, no. 9, pp. 118–128, Sept. 2006.Suche in Google Scholar

[10] J. A. Tirado-Mendez and H. Jardon-Aguilar, “Comparison of defected ground structure (DGS) and defected microstrip structure (DMS) behavior at high frequencies,” in 1st Int. Conf. Electrical and Electronics Engineering Digest (ICEEE), pp. 7–10, 2004.Suche in Google Scholar

[11] D. La, Y. Lu, S. Sun, et al, “A novel compact bandstop filter using defected microstrip structure,” Microwave Opt. Technol. Lett., vol. 53, no. 53, pp. 433–435, 2011.10.1002/mop.25708Suche in Google Scholar

[12] Y. Li, W. Li, and Q. Ye, “A reconfigurable triple notch band antenna integrated with defected microstrip structure band-stop filter for ultra-wideband cognitive radio applications,” Int. J. Antennas Propag. Article ID: 472645, pp. 1–13, 2013.10.1155/2013/472645Suche in Google Scholar

[13] M. Kazerooni, N. P. Gandji, A. Cheldavi, et al. “A new microwave bandstop filter using defected microstrip structure (DMS),” in PIERS Proceedings, pp. 679–700, 2009.Suche in Google Scholar

[14] J. K. Xiao and Y. F. Zhu, “Multi-band bandstop filter using inner T-shaped defected microstrip structure (DMS),” AEU-Int. J. Electron. Commun., vol. 68, no. 2, pp. 90–96, 2014.10.1016/j.aeue.2013.07.002Suche in Google Scholar

[15] J. S. Hong and B. M. Karyamapudi, “A general circuit model for defected ground structures in planar transmission lines,” IEEE Microwave Wireless Compon. Lett., vol. 15, no. 10, pp. 706–708, October 2005.10.1109/LMWC.2005.856832Suche in Google Scholar

[16] C. S. Kim, J. S. Lim, S. Nam, K. Y. Kang, and A. Ahn, “Equivalent circuit modeling of spiral defected ground structure for microstrip line,” Electron. Lett., vol. 38, no. 19, pp. 1109–1110, September 2002.10.1049/el:20020742Suche in Google Scholar

Received: 2016-2-28

Published Online: 2016-6-28

Published in Print: 2017-7-26

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Artikel in diesem Heft

https://doi.org/10.1515/freq-2016-0057

Schlagwörter für diesen Artikel

Equivalent circuit; ratioed periodical defected microstrip structure; stop-band filter; spiral slot