A Novel Band-Stop Filter using Octagonal-Shaped Patterned Ground Structures along with Interdigital and Compensated Capacitors

作者

  • Ahmed Boutejdar Chair of Microwave and Communication Engineering University of Magdeburg, Magdeburg, 39106, Germany
  • Mouloud Challal Department of Electronic, IGEE University of Boumerdes, Boumerdes, 35000, Algeria
  • Arab Azrar Department of Electronic, IGEE University of Boumerdes, Boumerdes, 35000, Algeria

关键词:

A Novel Band-Stop Filter using Octagonal-Shaped Patterned Ground Structures along with Interdigital and Compensated Capacitors

摘要

This paper presents a novel compact microstrip band-stop filter (BSF) based on octagonal defected ground structure (DGS) along with interdigital and compensated capacitors. The proposed BSF has lower and higher cut-off frequencies of 3.4 GHz and 5.3 GHz, respectively. A comparison between simulation and measurement results confirms the validity of the BSF configuration and the design procedure. The compact filter occupies an area of (0.45?g × 0.35?g) with ?g = 0.044 m on an ?r = 3.66 substrate and shows a 44% bandwidth (? 2GHz) and a return loss of 0.1 dB. The experimental results show the excellent agreement with theoretical simulation results.

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参考

R. N. Baral and P. K. Singhal, “Design and

Analysis of Microstrip Photonic Band Gap

Filter for Suppression of Periodicity,” Applied

Computational Electromagnetic Society

(ACES) Journal, vol. 25, no. 2, February 2010.

A. Dal, J. S. Park, C. S. Kim, J. Kim,Y, and T.

Itoh, “A Design of the Low-Pass Filter using

the Novel Microstrip Defected Ground

Structure,” IEEE Trans. Microw. Theory

Tech., vol. 49, pp. 86–93, May 2001.

A. Boutejdar, M. Makkey, A. Elsherbini, and

A. Omar “Design of Compact Stop-Band

Extended Microstrip Low-Pass Filters by

Employing Mutual Coupled Square Shaped

Defected Ground Structures,” Microw. Opt

Technol. Lett, vol 50, iss. 4, pp. 1107-1111,

Apr. 2008.

J.-S. Lim, H.-S. Kim, J.-S. Park, and S. Nam,

“A Power Amplifier with Efficiency

Improved using Defected Ground Structure,”

IEEE Microw. Wireless Compon. Lett., vol.

, no. 4, pp. 170–172, Apr. 2001.

H. Liu, Z. Li, and J. Mao, “Harmonic

Suppression with Photonic Bandgap and DGS

for a Microstrip Patch Antenna,” IEEE

Microw. Wireless Compon. Lett., vol. 15, no.

, pp. 55–56, Feb. 2005.

A. Boutejdar, A. Rahman, A. Batmanov, A.

Omar, and E. Burte, “Miniaturized Band-Stop

Filter Based on Multilayer- Technique and

New Coupled Octagonal DGS With

Interdigital Capacitor,” Microw. Opt Technol.

Lett, vol. 52, iss. 3, pp. 510-514, Mar. 2010.

C. Kim, J. S. Park, A. Dal, and J. Kim, “A

Novel 1-D Periodic Defected Ground

Structure for Planar Circuits,” IEEE

Microwave Guided Wave Lett. , vol. 10, pp.

–133, Apr. 2000.

A. Boutejdar, A. Batmanov, and A. S. Omar,

“A Compact Band-Stop/Band Pass Filter

using a Narrow Gap Capacitive as J-Inverter

and New Octagonal Defected Ground

Structure,” 3rd European Conference on

Antennas and Propagation, EuCAP 2009,

Berlin, Germany, Mar. 2009.

Ahmed Boutejdar; Batmanov, Anatoliy;

Omar, Abbas; Burte, and Edmund P., (Book

Chapter) “A Miniature 3.1 GHz Microstrip

Bandpass Filter with Suppression of Spurious

Harmonics using Multilayer Technique and

Defected Ground Structure Open-Loop

Ring," Ultra-wideband, short-pulse

electromagnetics 9. New York, NY: Springer,

ISBN 978-0-387-77844-0, S. 191-200, 2010.

A. Abdel-Rahman, A. K. Verma, A.

Boutejdar, and A. S. Omar, “Compact Stub

Type Microstrip Bandpass Filter using

Defected Ground Plane,” IEEE Microwave

and Wireless Components Letters, vol. 14, pp.

-138, 2004.

M. Al-Sharkawy, A. Boutejdar, F.

Alhefnawi, and O. Luxor, “ Improvement of

Compactness of Lowpass/Bandpass Filter

BottomTop

ACES JOURNAL, VOL. 26, NO. 4, APRIL 2011

Using A New Electromagnetic Coupled

Crescent Defected Ground Structure (DGS)

Resonators,” The Applied Computational

Electromagnetics Society (ACES) Journal,

vol. 25, no. 9, July 2010.

J. S. Hong and M. J. Lancaster, Microstrip

Filters for RF/Microwave Applications, New

York: Wiley, 2001.

A. Boutejdar, A. Batmanov, E. Burte, and A.

Omar, “ Design of a New Bandpass Filter

with Sharp Transition Band Using U-

Defected Ground Structure (DGS) and

Multilayer-Technique,” IET Microwave,

Antennas and Propagation, vol. 4, no. 9,

pp.1415-1420, September 2010.

J. -S. Hong and M. J. Lancaster, “Theory and

Experiment of Novel Microstrip Slow-Wave

Open-Loop Resonator Filters,” IEEE Trans.

Microwave Theory Tech., vol. 45, no. 12, pp.

-2365, Dec. 1997.

A. Boutejdar, A. Omar, and E. Burte,

“Miniaturized Lowpass and Bandstop Filters

Using Controlled Coupling of Open-Loop-

Ring Defected Ground Structure (DGS),”

Microwave and Optical Technology Letters,

vol. 52, no. 11, November 2010.

J. -S. Hong and M. J. Lancaster, “Cross-

Coupled Microstrip Hairpin-Resonator

Filters,” IEEE Trans. Microwave Theory

Tech., vol. 46, no. 1, pp. 118-122, Jan. 1998.

A. Boutejdar, A. Elsherbini, A. Balalem, J.

Machac, and A. Omar, “Design of New DGS

Hairpain Microstrip Bandpass Filter using

Coupling Matrix Method,” PIERS Progress

in Electromagnetics Research Symposium,

Prague, Czech Republic, pp. 261-265,

August 27 - 30, 2007.

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已出版

2022-05-02

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[1]
A. . Boutejdar, M. . Challal, 和 A. . Azrar, 《A Novel Band-Stop Filter using Octagonal-Shaped Patterned Ground Structures along with Interdigital and Compensated Capacitors》, ACES Journal, 卷 26, 期 4, 页 31–318, 5月 2022.

2011: Vol 26 Iss 4

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General Submission