Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-26T17:25:43.901Z Has data issue: false hasContentIssue false

Compact UWB BPF using slotted resonator with an independently controllable notched band

Published online by Cambridge University Press:  11 September 2014

Gholamreza Karimi*
Affiliation:
Electrical Engineering Department, Faculty of Engineering, Razi University, Kermanshah 67149, Iran. Phone: +98 831 4275436
Farnaz Khamin-Hamedani
Affiliation:
Deprtment of Electrical Engineering, Kermanshah Science and Research Branch, Islamic Azad University, Kermanshah, Iran
Hesam Siahkamari
Affiliation:
Electrical Engineering Department, Faculty of Engineering, Razi University, Kermanshah 67149, Iran. Phone: +98 831 4275436
*
Corresponding author: G. Karimi Email: [email protected]

Abstract

In this paper, a novel compact ultra-wideband (UWB) bandpass filter (BPF) without and with one sharply notched band is presented. The UWB bandpass characteristic is achieved using slotted resonators (SR) and a notch is obtained by spiral defected ground structure (SDGS) without any change in SR structure. Center frequency of the notched band can be easily changed (from 5 to 9 GHz) by tuning the dimensions of SDGS. To verify the feasibility of the proposed filter, two UWB BPFs, one without the notched band and the other with a notched band, at 8.0 GHz are developed and fabricated, there by suppressing the spurious satellite-communication signal within passband. Measured results of two fabricated filters have the advantages of wide −3 dB bandwidth from 3.1 to 10.6 GHz (which satisfies the requirements of US Federal Communication Commission -specified UWB limits), compact size, low insertion loss (<0.6 dB), and a wide upper stopband with high attenuation (−20 to −50 dB).

Type
Research Papers
Copyright
Copyright © Cambridge University Press and the European Microwave Association 2014 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

[1]Federal Communication. Revision of Part 15 of the Commission's Rules Regarding Ultra-wideband Transmission Systems, FCC, Washington, DC, 2002 (Technical Report ET-Docket 98–153. FCC02-48).Google Scholar
[2]Lee, J.-K.; Kim, Y.-S.: Ultra-wideband bandpass filter with improved upper stopband performance using defected ground structure. IEEE Microw. Wirel. Compon. Lett., 20 (2010), 316318.CrossRefGoogle Scholar
[3]Tu, W.H.: Broadband microstrip bandpass filters using triple-mode resonator. IET Microw. Antennas Propag., 4 (2010), 12751282.Google Scholar
[4]Chu, Q.-X.; Wu, X.-H.; Tian, X.-K.: Novel UWB bandpass filter using stub-loaded multiple-mode resonator. IEEE Microw. Wirel. Compon. Lett., 21 (2011), 403405.Google Scholar
[5]Zhang, Z.; Xiao, F.: An UWB bandpass filter based on a novel type of multi-mode resonator. IEEE Microw. Wirel. Compon. Lett., 22 (2012), 506508.Google Scholar
[6]Wu, H.-W.; Chen, Y.-W.; Chen, Y.-F.: New ultra-wideband (UWB) bandpass filter using triangle-ring multi-mode stub-loaded resonator. Microelectron. J., 43 (2012), 857862.Google Scholar
[7]Zhang, X.R.; Wang, Q.Y.; Cao, J.H.: UWB waveguide bandpass filter with a narrow notched band. J. Electromagn. Waves Appl., 26 (2012), 11161124.Google Scholar
[8]Liu, J.; Song, K.; Fan, Y.: UWB BPF with triple notched bands using novel dual-mode SIR and asymmetrical coupling structure. J. Electromagn. Waves Appl., 26 (2012), 21122120.CrossRefGoogle Scholar
[9]Luo, X.; Ma, J.-G.; Yeo, K.S.; Li, E.-P.: Compact ultra-wideband (UWB) bandpass filter with ultra-narrow dual- and quad-notched bands. IEEE Trans. Microw. Theory Tech., 59 (6) (2011), 15091519.Google Scholar
[10]Gao, M.-J.; Wu, L.-S.; Mao, J.-F.: Compact notched ultra-wideband bandpass filter with improved out-of-band performance using quasi electromagnetic bandgap structure. Prog. Electromagn. Res., 125 (2012), 137150.Google Scholar
[11]Yang, G.-M.; Jin, R.; Vittoria, C.; Harris, V.G.; Sun, N.X.: Small ultra-wideband (UWB) bandpass filter with notched band. IEEE Microw. Wirel. Compon. Lett., 18 (2008), 176178.CrossRefGoogle Scholar
[12]Xu, J.; Li, B.; Wang, H.; Miao, C.; Wu, W.: Compact UWB bandpass filter with multiple ultra narrow notched bands. J. Electromagn. Waves Appl., 25 (2011), 987998.Google Scholar
[13]Mondal, P.; Guan, L.Y.: A coplanar stripline ultra-wideband bandpass filter with notch band. IEEE Microw. Wirel. Compon. Lett., 20 (2010), 2224.Google Scholar
[14]Hao, Z.-C.; Hong, J.-S.; Parry, J.P.; Hand, D.P.: Ultra-wideband bandpass filter with multiple notch bands using nonuniform periodical slotted ground structure. IEEE Trans. Microw. Theory Tech., 57 (2009), 30803088.Google Scholar
[15]Wong, S.W.; Zhu, L.: Implementation of compact UWB bandpass filter with a notch-band. IEEE Microw. Wirel. Compon. Lett., 18 (2008), 1012.Google Scholar
[16]Song, K.; Hu, S.; Fan, Y.; Xue, Q.: Compact ultra-wideband (UWB) slotline bandpass filter with a switchable notch band. J. Electromagn. Waves Appl., 27 (2013), 691699.Google Scholar
[17]Hong, J.S.; Lancaster, M.J.: Microstrip Filters for RF/microwave Applications. Wiley, New York, 2001, 8992.Google Scholar
[18]Pozar, D.M.: Microwave Engineering, Wiley, New York, 2012, 188192.Google Scholar
[19]Nakhlestani, A.; Hakimi, A.: Wideband microstrip ring resonator bandpass filter with embedded rings. Microelectron. J., 44 (2013), 462467.CrossRefGoogle Scholar
[20]Song, K.; Pan, T.; Xue, Q.: Asymmetric dual-line coupling strip for multiple notched bands: theory and implementation. Microelectron. J., 43 (2012), 416422.Google Scholar
[21]Meeloon, M.; Chaimool, S.; Akkaraekthalin, P.: Broadband bandpass filters using slotted resonators fed by interdigital coupled lines for improved upper stopband performances. AEU, 63 (2009), 454463.Google Scholar
[22]Xu, J.; Wu, W., Kang, W.; Miao, C.: Compact UWB bandpass filter with a notched band using radial stub loaded resonator. IEEE Microw. Wirel. Compon. Lett., 22 (2012), 351353.Google Scholar
[23]Wadell, B.C.: Transmission Line Design Handbook, Artech Print on Demand, 1991, 287297.Google Scholar
[24]Fallahzadeh, S.; Tayarani, M.: A new microstrip UWB bandpass filter using defected microstrip structures. J. Electromagn. Waves Appl., 24 (2010), 893902.Google Scholar
[25]Lee, C.-H.; Hsu, C.-I.G.; Chen, L.-Y.: Band-notched ultra-wideband bandpass filter design using combined modified quarter-wavelength tri-section stepped-impedance resonator. IET Microw. Antennas Propag., 3 (2009), 12321236.Google Scholar
[26]Lee, C.-H., Hsu, C.-I.G., Chen, C.-J.: Band-notched balanced UWB BPF with stepped impedance slotline multi-mode resonator. IEEE Microw. Wirel. Compon. Lett., 22 (2012), 182184.CrossRefGoogle Scholar
[27]Kim, C.H.; Chang, K.: Ultra-wideband (UWB) ring resonator bandpass filter with a notch band. IEEE Microw. Wirel. Compon. Lett., 21 (2011), 206208.Google Scholar