A Novel Integrated Corrugated Waveguide Bandpass Filter

Authors

  • Hassan Aghayari Department of communication Engineering Saeb University, Abhar, Iran
  • Nader Komjani Department of Electrical Engineering Iran University of Science & Technology (IUST), Tehran, IRAN
  • Nima Molaei Garmjani Department of Electrical Engineering Iran University of Science & Technology (IUST), Tehran, IRAN

Keywords:

A Novel Integrated Corrugated Waveguide Bandpass Filter

Abstract

This paper presents the approach for the design of a X-band bandpass filter using substrate integrated corrugated waveguide (SICW). The SICW filter which is proposed in this paper, is totally realized in a single-layer dielectric substrate with two sequences of metallic vias with the different diameters, and fabricated using a standard PCB process. This proposed filter has the same dispersion characteristics as a waveguide filter, while its dimensions are very shorter than it. A transition circuit between the SICW and 50 ? microstrip lines was designed for excitation of the filter.

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Author Biographies

Hassan Aghayari, Department of communication Engineering Saeb University, Abhar, Iran

Hassan Aghayari was born in
Abhar, Iran, in 1984. He received
the B.S. degree in Electrical
Engineering from the University of
Gilan, Iran, in 2006, the M.S.
degree in Communication
Engineering from Iran University
of Science and Technology,
Tehran, Iran, in 2009. His current
research interests are substrate integrated waveguide
(SIW). Currently, he is the director of the Department
of communication Engineering, Saeb university, Abhar,
Iran.

Nader Komjani, Department of Electrical Engineering Iran University of Science & Technology (IUST), Tehran, IRAN

Nader Komjani was born in
Tehran, Iran, in 1965. He received
the B.S., M.S. and Ph.D. degrees in
Communication Engineering from
Iran University of Science and
Technology in 1988, 1991 and 2000,
respectively. From 1991 to 1994, he
joined the Iranian Science
Organization of Science and
Technology. His current research interests are in Phased
Array Antennas, UWB and multi-band microstrip
antenna, and numerical methods in electromagnetic.
Currently, he is assistant professor and the Director of
the Antenna Lab. in the Electrical Engineering
Department, Iran University of Science and
Technology.

Nima Molaei Garmjani, Department of Electrical Engineering Iran University of Science & Technology (IUST), Tehran, IRAN

Nima Molaei Garmjani was born in
Tehran, Iran, in 1982. He received
the B.S. degree in Electrical
Engineering from Azad University,
Iran, in 2006, the M.S. degree in
Communication Engineering from
Iran University of Science and
Technology, Tehran, Iran, in 2009.
His research interests include the design and analysis of
microwave filter circuits and microstrip stepped
impedance resonators (SIR)

References

R. Balasubramanian and P. Pramanick, “Computer

Aided Design of H_Plane Tapered Corrugated

Waveguide Bandpass Filter,” Department of

Electrical Engineering, 57 Campus Drive,

University of Saskatchewan, Canada S7N 5A9,

April 1998.

J. X. Chen, Z. C. Hao, H. Li, K.-Wu,

"Development of a Low Cost Microwave Mixer

using a Broad-band Substrate Integrated

Waveguide (SIW) Coupler," IEEE Microwave and

Wireless Comm., vol. 16, no. 2, February 2006.

Z. C. Hao, W. Hong, J.X. Chen, H. X. Zhou, and

K.-Wu, "Single-Layer Substrate Integrated

Waveguide Directional Couplers," IEEE Proc-

Microw-Antenna Propagation, vol. 153, no. 5,

October 2006.

K. Sellal, L. Talbi, T. Denindni,and J. Leble, "A

New Substrate Integrated Waveguide Phase

Shifter," Proceeding of the 36th European

Microwave Conference, Manchester UK,

September 2006.

X. Xu, R. G. Bosisio, and K.-Wu, "A New Six-Port

Junction Based on Substrate Integrated Waveguide

Technology," IEEE Trans. On Microwave Theory

and Tech., vol. 53, no. 7, July 2005.

D. William, Orazio, and K.-Wu, "Substrate

Integrated Waveguide Circulators Suitable for

Millimeter-Wave Integration," IEEE Trans. On

Microw. Theory and Tech., vol. 54, no. 10, October

H. J. Tang, W. Hong, J. X. Chen, G. Q. Luo, and

K.-Wu, "Development of Millimeter-Wave Planar

Diplexers Based on Complementary Characters of

Dual-Mode Substrate Integrated Waveguide Filters

With Circular and Elliptic Cavities," IEEE Trans.

On Microw. Theory and Tech., vol. 55, no. 4, April

L. Yang, W. Hong, G. Hao, J. Chen, K.-Wu, T. J.

Cui, "Simulation and Experiment on SIW Slot

Array Antenna," IEEE Microw. And Wireless

Comm., vol. 14, no. 9, September 2004.

G. Q. Luo, W. Hong, H. J. Tang, J. X. Chen , X. X.

Yin, Z. Q. Kuai, and K.-Wu, "Filtenna Consisting

of Horn Antenna and Substrate Integrated

Waveguide Cavity FSS," IEEE Trans. On

Antennas and Propagation, vol. 55, no. 1, January

L. Q. Bui, D. Ball, and T. Itoh,“Broad-Band

Millimeter-Wave E-Plane Bandpass Filters,” IEEE

Transactions on Microwave Theory and

Techniques, MTT321984, 16551658.

G. Matthaei, L. Yong, and E. M. T. Jones,

Microwave Filters, Impedance Matching Network,

and Coupling Structures. Boston, MA, Artech

House, 1980.

G. Conciauro, M. Guglielmi, and R. Sorrentino,

Advance Modal Analysis: CAD Techniques for

Waveguide Components and Filters. NewYork,

Wiley, 2000.

H. LI, W. Hong, T. J. Cui, and K. Wu,

"Propagation Characteristics of Substrate

Integrated Waveguide based on LTCC", IEEE

MTT-S Tech. Dig., vol. 3, Jun. 2003.

Y. Cassivi, L. Perregrini, P. Arcioni, M. Bressan,

K. Wu, and G.Conciauro, "Dispersion

Characteristics of Substrate Integrated Rectangular

Waveguide," IEEE Microw. Wireless Compo. Lett.,

vol. 12, no. 9, pp. 333-335, Sep. 2002.

N. M. Garmjani andN. Komjani, “Improved

Microstrip Folded Tri-Section Stepped Impedance

Resonator Bandpass Filter using Defected Ground

Structure,” Applied Computational

Electromagnetic Society (ACES) Journal, vol. 25,

no. 11, pp. 975 – 983, November 2010.

E. Mehrshahi and M. Salehi, “A Simple Technique

for Propagation Characteristics ofSubstrate

Integrated Waveguide,” Applied Computational

Electromagnetic Society (ACES) Journal, vol. 25,

no. 8, pp. 690–695, August 2010.

F. Giuppi, A.Georgiadis, M. Bozzi, S. Via, A.

Collado, and L. Perregrini, “Hybrid

Electromagnetic and Non-Linear Modeling and

Design of SIW Cavity-Backed Active Antennas,”

Applied Computational Electromagnetic (ACES)

Journal, vol. 25, no. 8, pp. 682– 689, August

L. Sh. Wu, X. L. Zhou, W. Y. Yin, Ch. T. Liu, L.

Zhou, J. F. Mao, and H. L. Peng, “A New Type of

Periodically Loaded Half-Mode Substrate

Integrated Waveguide and Its Applications,”IEEE

Transactions on Microwave Theory and

Techniques, vol. 58, iss. 4, pp. 882-893.

H. Kong and Macau“Substrate Integrated

Waveguide with Corrugated Wall,”Asia Pacific

Microwave Conference 2008 (China APMC 2008),

-19 Dec 2008.

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Published

2022-05-02

How to Cite

[1]
H. . Aghayari, N. . Komjani, and N. M. . Garmjani, “A Novel Integrated Corrugated Waveguide Bandpass Filter”, ACES Journal, vol. 27, no. 1, pp. 67–73, May 2022.

Issue

2012: Vol 27 Iss 1

Section

General Submission