The general form of secondary parameters of uniform line under expofunctional actions
DOI:
https://doi.org/10.3103/S0735272711060070Keywords:
secondary parameters, expofunctional excitation, any losses, homogeneous lineAbstract
The paper presents formulas for secondary parameters of a uniform line under expofunctional actions. The formula has been found for calculating the value of the exponential action parameter required for simplifying the analysis of the mathematical model of uniform line under the specified actions.
References
L. A. Vainshtein, Electromagnetic Waves: Scientific Publication (Radio i Svyaz’, Moscow, 1988) [in Russian].
V. P. Bakalov, P. P. Vorobienko, and B. I. Kruk, Electric Circuit Theory: Textbook for Higher Educational Institutions (Radio i Svyaz’, Moscow, 1998) [in Russian].
A. M. Ivanitckiy, “Reactive Elements Under Expofunctional Actions,” in Informatics and Communications, Sb. Nauch. Tr. Ukr. Gosud. Akad. Svyazi im. A.S. Popova (Odessa, 1996), No. 1, pp. 236–240.
A. M. Ivanitckiy and D. G. Pasku, “Investigation of the expofunctional signals passing through linear electric circuits with distributed parameters,” in Naukovi pratsi ONAZ im. O. S. Popova (Odessa, 2008), No. 2, pp. 5–9.
Elements of Practical Application of Exposinusoidal Signals, Research Work Report GR No. 0107U001778 (Odessa National Academy of Telecommunications named after A. S. Popov, Odessa, 2007).
L. A. Vlasenko and A. G. Rutkas, “Transients in the Multiwire Transmission Line with Lumped Elements at the Output. I. Dispersion-Free Lines,” Radioelektronika i Informatika, No. 1, 9 (2009).
L. A. Vlasenko and A. G. Rutkas, “Transients in Circuits with Dispersive Multiwire Transmission Lines,” Radiotekhnika (Kharkiv), No. 161, 105 (2010).
G. I. Atabekov, Basic Principles of the Circuit Theory: Textbook for Higher Educational Institutions (Energiya, Moscow, 1969) [in Russian].
N. N. Garnovskii, The Theory of Telecommunications. Part II. The Theory of Circuits with Distributed Constants (Svyazizdat, Moscow, 1959) [in Russian].
S. C. Thierauf, High–Speed Circuit Board Signal Integrity (Artech House, Boston–London, 2004).
