Geodesic
Modeling of self-oscillations in discrete distributed system with cavity resonator by method of integral equation of motion
Vestnik Samarskogo universiteta. Estestvennonaučnaâ seriâ, no. 8 (2009), pp. 154-163 Cet article a éte moissonné depuis la source Math-Net.Ru

Voir la notice de l'article

In the article the method of modelling of self-contained generators with concentrated active two-terminal networks and distributed cavity resonators, based on the presentation of the motion equations in the form of non-local Volterra integral equation and its numerical solutions. It is shown that at formulating the integral equations of motion it is necessary to take into into consideration the capacity of the package of two-terminal network. The example of modelling of self-oscillations in the generator with the rectangular resonator at sectionally non-linear approximation of Volt-Ampere characteristic of the two-terminal network.
Keywords: self-oscillatory system, active two-terminal network, rectangular resonator, integral motion equation, self-oscillation dynamics. 
@article{VSGU_2009_8_a14,
     author = {V. V. Zaytcev and P. S. Khlopkov and A. V. Karlov},
     title = {Modeling of self-oscillations in discrete distributed system with cavity resonator by method of integral equation of motion},
     journal = {Vestnik Samarskogo universiteta. Estestvennonau\v{c}na\^a seri\^a},
     pages = {154--163},
     year = {2009},
     number = {8},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/VSGU_2009_8_a14/}
}
TY  - JOUR
AU  - V. V. Zaytcev
AU  - P. S. Khlopkov
AU  - A. V. Karlov
TI  - Modeling of self-oscillations in discrete distributed system with cavity resonator by method of integral equation of motion
JO  - Vestnik Samarskogo universiteta. Estestvennonaučnaâ seriâ
PY  - 2009
SP  - 154
EP  - 163
IS  - 8
UR  - http://geodesic.mathdoc.fr/item/VSGU_2009_8_a14/
LA  - ru
ID  - VSGU_2009_8_a14
ER  - 
%0 Journal Article
%A V. V. Zaytcev
%A P. S. Khlopkov
%A A. V. Karlov
%T Modeling of self-oscillations in discrete distributed system with cavity resonator by method of integral equation of motion
%J Vestnik Samarskogo universiteta. Estestvennonaučnaâ seriâ
%D 2009
%P 154-163
%N 8
%U http://geodesic.mathdoc.fr/item/VSGU_2009_8_a14/
%G ru
%F VSGU_2009_8_a14
V. V. Zaytcev; P. S. Khlopkov; A. V. Karlov. Modeling of self-oscillations in discrete distributed system with cavity resonator by method of integral equation of motion. Vestnik Samarskogo universiteta. Estestvennonaučnaâ seriâ, no. 8 (2009), pp. 154-163. http://geodesic.mathdoc.fr/item/VSGU_2009_8_a14/

[1] Utkin G. M., Avtokolebatelnye sistemy i volnovye usiliteli, Sovetskoe radio, M., 1978, 272 pp.

[2] Landa P. S., Avtokolebaniya v raspredelennykh sistemakh, Nauka, M., 1983, 320 pp. | MR | Zbl

[3] Zaitsev V. V., Zaitsev O. V., Nikulin V. V., “Integralnye modeli avtokolebatelnykh sistem”, Fizika volnovykh protsessov i radiotekhnicheskie sistemy, 9:1 (2006), 37–41

[4] Zaitsev V. V., Zaitsev O. V., Nikulin V. V., “Integralnaya model diskretno-raspredelennoi avtokolebatelnoi sistemy”, Vestnik SamGU. Estestvennonauchnaya seriya, 2006, no. 3(43), 88–93

[5] Zaitsev V. V., Nikulin V. V., Khlopkov P. S., “Integralnaya model diskretno raspredelennogo avtogeneratora s emkostnoi obratnoi svyazyu”, Fizika volnovykh protsessov i radiotekhnicheskie sistemy, 10:4 (2007), 110–114

[6] G. L. Gassanov i dr., Tverdotelnye ustroistva SVCh v tekhnike svyazi, Radio i svyaz, M., 1988, 288 pp.

[7] G. I. Veselov(red.), Mikroelektronnye ustroistva SVCh, Vysshaya shkola, M., 1988, 280 pp.