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Year 2010, Volume: 10 Issue: 1, 1129 - 1134, 20.01.2012

Metin Şengül

Abstract

References

  • Pozar DM, Microwave Engineering, John Wiley & Sons, Inc., 3rd ed., 2005.
  • Matthaei GL, Young L, Jones EMT, Microwave
  • networks and coupling structures: Dedham, Mass.: Artech House, 1980.
  • Carlin HJ, Distributed circuit design with transmission line elements, Proc. IEEE 1971; 59(7): 1059-1081.
  • Richards PI, Resistor-termination-line circuits, Proc. IRE 1948; 36: 217-220.
  • Belevitch V, Classical Network Theory: San Francisco, CA: Holden Day, 1968.
  • Aksen A, Design of lossless two-port with mixed lumped and distributed elements for broadband matching, Ph.D. dissertation, Bochum, Ruhr University, 1994.
  • Ikeno N, A design theory of distributed constant filters, J Elec Comm Eng Japan 1952; 35: 544-549.
  • Carlin HJ, Friedenson RA, Gain bandwidth properties of a distributed parameter load, IEEE Trans. Circuit Theory 1968; 15: 455- 464.
  • Fettweis A, Cascade synthesis of lossless two ports by transfer matrix factorization, in R. Boite, Network Theory, Gordon&Breach, 1972.
  • Şengül M, Synthesis of cascaded lossless commensurate lines, IEEE Trans. CAS-II 2008; 55(1): 89-91.
  • Şengül M, Explicit Synthesis Formulae for Cascaded Lossless Commensurate Lines, Frequenz Journal of RF Engineering and Telecommunications 2008; 62(1-2): 16-17.
  • Yarman BS, A simplified real frequency technique for broadband matching complex generator to complex loads, RCA Review 1982; 43: 529-541.
  • Yarman BS, Carlin HJ, A simplified real frequency technique applied to broadband multi-stage microwave amplifiers, IEEE Trans. Microwave Theory and Tech. 1982; 30: 2216-2222.
  • AWR: Microwave Office of Applied Wave Research Inc., AWR, El Segundo, CA, 2007 [Online]. Available: www.appwave.com.

DESIGN TABLE FORMATION OF STEPPED IMPEDANCE PROTOTYPE FILTERS

Year 2010, Volume: 10 Issue: 1, 1129 - 1134, 20.01.2012

Metin Şengül

Abstract

In literature, there exist some tables containing normalized element values, to design low-pass lumped-element prototype filters with several different responses like maximally flat or equal-ripple. In this work, an algorithm is presented, to form such tables for stepped impedance prototype filters. By using the proposed algorithm, a table for 0.5 dB equal-ripple stepped impedance prototype filter is formed. Then a design example is given, to show the utilization of the formed table

Keywords

Filters Stepped impedance Maximally flat Equal ripple Distributed elements

References

  • Pozar DM, Microwave Engineering, John Wiley & Sons, Inc., 3rd ed., 2005.
  • Matthaei GL, Young L, Jones EMT, Microwave
  • networks and coupling structures: Dedham, Mass.: Artech House, 1980.
  • Carlin HJ, Distributed circuit design with transmission line elements, Proc. IEEE 1971; 59(7): 1059-1081.
  • Richards PI, Resistor-termination-line circuits, Proc. IRE 1948; 36: 217-220.
  • Belevitch V, Classical Network Theory: San Francisco, CA: Holden Day, 1968.
  • Aksen A, Design of lossless two-port with mixed lumped and distributed elements for broadband matching, Ph.D. dissertation, Bochum, Ruhr University, 1994.
  • Ikeno N, A design theory of distributed constant filters, J Elec Comm Eng Japan 1952; 35: 544-549.
  • Carlin HJ, Friedenson RA, Gain bandwidth properties of a distributed parameter load, IEEE Trans. Circuit Theory 1968; 15: 455- 464.
  • Fettweis A, Cascade synthesis of lossless two ports by transfer matrix factorization, in R. Boite, Network Theory, Gordon&Breach, 1972.
  • Şengül M, Synthesis of cascaded lossless commensurate lines, IEEE Trans. CAS-II 2008; 55(1): 89-91.
  • Şengül M, Explicit Synthesis Formulae for Cascaded Lossless Commensurate Lines, Frequenz Journal of RF Engineering and Telecommunications 2008; 62(1-2): 16-17.
  • Yarman BS, A simplified real frequency technique for broadband matching complex generator to complex loads, RCA Review 1982; 43: 529-541.
  • Yarman BS, Carlin HJ, A simplified real frequency technique applied to broadband multi-stage microwave amplifiers, IEEE Trans. Microwave Theory and Tech. 1982; 30: 2216-2222.
  • AWR: Microwave Office of Applied Wave Research Inc., AWR, El Segundo, CA, 2007 [Online]. Available: www.appwave.com.
There are 15 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Metin Şengül This is me

Publication Date January 20, 2012
Published in Issue Year 2010 Volume: 10 Issue: 1

Cite

APA Şengül, M. (2012). DESIGN TABLE FORMATION OF STEPPED IMPEDANCE PROTOTYPE FILTERS. IU-Journal of Electrical & Electronics Engineering, 10(1), 1129-1134.
AMA Şengül M. DESIGN TABLE FORMATION OF STEPPED IMPEDANCE PROTOTYPE FILTERS. IU-Journal of Electrical & Electronics Engineering. January 2012;10(1):1129-1134.
Chicago Şengül, Metin. “DESIGN TABLE FORMATION OF STEPPED IMPEDANCE PROTOTYPE FILTERS”. IU-Journal of Electrical & Electronics Engineering 10, no. 1 (January 2012): 1129-34.
EndNote Şengül M (January 1, 2012) DESIGN TABLE FORMATION OF STEPPED IMPEDANCE PROTOTYPE FILTERS. IU-Journal of Electrical & Electronics Engineering 10 1 1129–1134.
IEEE M. Şengül, “DESIGN TABLE FORMATION OF STEPPED IMPEDANCE PROTOTYPE FILTERS”, IU-Journal of Electrical & Electronics Engineering, vol. 10, no. 1, pp. 1129–1134, 2012.
ISNAD Şengül, Metin. “DESIGN TABLE FORMATION OF STEPPED IMPEDANCE PROTOTYPE FILTERS”. IU-Journal of Electrical & Electronics Engineering 10/1 (January 2012), 1129-1134.
JAMA Şengül M. DESIGN TABLE FORMATION OF STEPPED IMPEDANCE PROTOTYPE FILTERS. IU-Journal of Electrical & Electronics Engineering. 2012;10:1129–1134.
MLA Şengül, Metin. “DESIGN TABLE FORMATION OF STEPPED IMPEDANCE PROTOTYPE FILTERS”. IU-Journal of Electrical & Electronics Engineering, vol. 10, no. 1, 2012, pp. 1129-34.
Vancouver Şengül M. DESIGN TABLE FORMATION OF STEPPED IMPEDANCE PROTOTYPE FILTERS. IU-Journal of Electrical & Electronics Engineering. 2012;10(1):1129-34.
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