Year 2012,
Volume: 12 Issue: 2, 1511 - 1515, 03.09.2013
Abstract
References
- B. S. Yarman, “Broadband Networks”, Wiley Encyclopedia of Electrical and Electronics Engineering, 1999.
- D. C. Youla, “A new theory of broadband matching”, IEEE Trans. Circuit Theory, vol.11, pp.30-50, 1964.
- R. M. Fano, “Theoretical limitations on the broadband matching of arbitrary impedances”, J. Franklin Inst., vol. 249, pp.57-83, 1950.
- Awr: Microwave office of applied wave research inc. www.appwave.com.
- Edl/ansoft designer of ansoft corp. www.ansoft.com/products.cfm.
- Ads of agilent techologies. www.home.agilent.com.
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- W. K. Chen, “Passive and active filters”, Wiley, New York, 1986.
- W. C. Yengst, “Procedures of Modern Network Synthesis”, The Macmillan Company, New York, 1964.
- V. Belevitch, “Classical Network Theory”, Holden Day, San Francisco, 1968.
- A. Aksen, “Design of lossless two-port with mixed, lumped and distributed elements for broadband matching”, Dissertation, Bochum, Germany: Ruhr University, 1994.
- M. Şengül, Reflectance-based foster impedance data modeling, Frequenz Journal of RF Engineering and Telecommunications, vol.61(7-8), pp.194-6, 2007.
- J. W. Nilsson, “Electric Circuits”, Addison-Wesley, New York, 1993.
- M. Şengül, “Broadband impedance matching via lossless unsymmetrical lattice networks”, Int. J. Electron. Commun. (AEU), vol: 66(1), pp: 76-79, Jan. 2012.
Year 2012,
Volume: 12 Issue: 2, 1511 - 1515, 03.09.2013
Abstract
In this paper, a broadband double-matching network design algorithm has been presented. In the network, an unsymmetrical lattice network has been used. The branch impedances of the lattice network are composed of singly terminated lossless LC networks. After giving the procedure, its usage has been illustrated via an example.
References
- B. S. Yarman, “Broadband Networks”, Wiley Encyclopedia of Electrical and Electronics Engineering, 1999.
- D. C. Youla, “A new theory of broadband matching”, IEEE Trans. Circuit Theory, vol.11, pp.30-50, 1964.
- R. M. Fano, “Theoretical limitations on the broadband matching of arbitrary impedances”, J. Franklin Inst., vol. 249, pp.57-83, 1950.
- Awr: Microwave office of applied wave research inc. www.appwave.com.
- Edl/ansoft designer of ansoft corp. www.ansoft.com/products.cfm.
- Ads of agilent techologies. www.home.agilent.com.
- B. S. Yarman, M. Şengül, A. Kılınç, “Design of practical matching networks with lumped-elements via modeling” IEEE Trans. on Circuits and Systems I: Regular Papers, vol.54(8), pp.1829-37, 2007.
- W. K. Chen, “Passive and active filters”, Wiley, New York, 1986.
- W. C. Yengst, “Procedures of Modern Network Synthesis”, The Macmillan Company, New York, 1964.
- V. Belevitch, “Classical Network Theory”, Holden Day, San Francisco, 1968.
- A. Aksen, “Design of lossless two-port with mixed, lumped and distributed elements for broadband matching”, Dissertation, Bochum, Germany: Ruhr University, 1994.
- M. Şengül, Reflectance-based foster impedance data modeling, Frequenz Journal of RF Engineering and Telecommunications, vol.61(7-8), pp.194-6, 2007.
- J. W. Nilsson, “Electric Circuits”, Addison-Wesley, New York, 1993.
- M. Şengül, “Broadband impedance matching via lossless unsymmetrical lattice networks”, Int. J. Electron. Commun. (AEU), vol: 66(1), pp: 76-79, Jan. 2012.
There are 14 citations in total.
Details
| Primary Language | English |
|---|---|
| Journal Section | Articles |
| Authors | |
| Publication Date | September 3, 2013 |
| Published in Issue | Year 2012 Volume: 12 Issue: 2 |
