Öz
In this paper, a practical method is presented to design broadband matching networks via reflection coefficient modeling. In the proposed algorithm, reflection function values () at sample frequencies are optimized to get the desired gain level. At the same time, the corresponding reflection coefficient values () are calculated and modeled. Then matching network topology and element values are obtained via the formed reflection coefficient expression. An example is presented to explain the usage of the new method.
Anahtar Kelimeler
Broadband Matching Lossless Networks Matching Networks Modeling Real Frequency Techniques
Kaynakça
- H. J. Carlin, “A new approach to gain-bandwidth problems”, IEEE Trans. CAS, 23, 170-5, 1977.
- H. J. Carlin, P. P. Civalleri, “Wideband Circuit Design”, CRC Pres LLC, 1998.
- H. J. Carlin, B. S. Yarman, “The double matching problem:Analytic and real frequency solutions”, IEEE Trans. Circuits and Systems, 30, 15-28, 1983.
- H. J. Carlin, “Parametric representation of brune functions”, Int. J. Circuit Theory and Appl., 7, 113-9, 1979.
- B. S. Yarman, “A simplified real frequency technique for broadband matching complex generator to complex loads”, RCA Review, 43, 529-41, 1982.
- B. S. Yarman, H. J. Carlin, “A simplified real frequency technique applied to broadband multistage microwave amplifiers”, IEEE Trans. MTT, 30, 2216-22, 1982.
- M. Şengül, “Design of practical broadband matching networks with lumped elements”, IEEE Trans. CAS-II:Express Briefs, 60(9), 552-6, 2013.
- B. S. Yarman, M. Şengül, A. Kılınç, “Design of practical matching networks with lumped elements via modeling”, IEEE Trans. CASI: Regular Papers, 54(8), 1829-37, 2007.
- M. Şengül, “Modeling based real frequency technique”, Int, J. Electron. Commun. (AEU), 62(2), 77-80, 2008.
- M. Şengül, B. S. Yarman, C. Volmer, M. Hein, “Design of distributed element RF filters via reflectamce data modeling”, Int, J. Electron. Commun. (AEU), 62, 483-9, 2008.
- M. Şengül, “Synthesis of resistively terminated LC ladder Networks”, İstanbul University-J. Electrical-Electronics Eng., 11(2), 1407-12, 2011.
- W. C. Yengst, “Procedures of modern networks synthesis”, The Macmillian Company, 1964.
- R. M. Fano, “Theoretical limitations on the broadband matching of arbitrary impedances”, J. Franklin Inst., 249, 57-83, 1950.
- D. C. Youla, “A new theory of broadband matching”, IEEE Trans. Circuit Theory, 11, 30-50, 1964.
- AWR, Microwave Office of Applied Wave Research Inc., www.appwave.com.
Öz
Kaynakça
- H. J. Carlin, “A new approach to gain-bandwidth problems”, IEEE Trans. CAS, 23, 170-5, 1977.
- H. J. Carlin, P. P. Civalleri, “Wideband Circuit Design”, CRC Pres LLC, 1998.
- H. J. Carlin, B. S. Yarman, “The double matching problem:Analytic and real frequency solutions”, IEEE Trans. Circuits and Systems, 30, 15-28, 1983.
- H. J. Carlin, “Parametric representation of brune functions”, Int. J. Circuit Theory and Appl., 7, 113-9, 1979.
- B. S. Yarman, “A simplified real frequency technique for broadband matching complex generator to complex loads”, RCA Review, 43, 529-41, 1982.
- B. S. Yarman, H. J. Carlin, “A simplified real frequency technique applied to broadband multistage microwave amplifiers”, IEEE Trans. MTT, 30, 2216-22, 1982.
- M. Şengül, “Design of practical broadband matching networks with lumped elements”, IEEE Trans. CAS-II:Express Briefs, 60(9), 552-6, 2013.
- B. S. Yarman, M. Şengül, A. Kılınç, “Design of practical matching networks with lumped elements via modeling”, IEEE Trans. CASI: Regular Papers, 54(8), 1829-37, 2007.
- M. Şengül, “Modeling based real frequency technique”, Int, J. Electron. Commun. (AEU), 62(2), 77-80, 2008.
- M. Şengül, B. S. Yarman, C. Volmer, M. Hein, “Design of distributed element RF filters via reflectamce data modeling”, Int, J. Electron. Commun. (AEU), 62, 483-9, 2008.
- M. Şengül, “Synthesis of resistively terminated LC ladder Networks”, İstanbul University-J. Electrical-Electronics Eng., 11(2), 1407-12, 2011.
- W. C. Yengst, “Procedures of modern networks synthesis”, The Macmillian Company, 1964.
- R. M. Fano, “Theoretical limitations on the broadband matching of arbitrary impedances”, J. Franklin Inst., 249, 57-83, 1950.
- D. C. Youla, “A new theory of broadband matching”, IEEE Trans. Circuit Theory, 11, 30-50, 1964.
- AWR, Microwave Office of Applied Wave Research Inc., www.appwave.com.
Ayrıntılar
| Bölüm | Erratum |
|---|---|
| Yazarlar | |
| Yayımlanma Tarihi | 23 Eylül 2016 |
| Yayımlandığı Sayı | Yıl 2016 Cilt: 16 Sayı: 2 |