The influence of electric energy disbalances on the spacecraft functionability under non-standard modes

1Belov, DG
1Yangel Yuzhnoye State Design Office, Dnipropetrovsk, Ukraine
Kosm. nauka tehnol. 2008, 14 ;(3):004-011
Publication Language: Russian
The problem of energy disbalances under non-normal spacecraft function is analysed. The indexes for numeral estimation of the electric power supply of SC functionability are determined. The procedure and algorithms for the calculation are developed. Using SC AUOS-SM as an example, the practical application of the procedure developed to investigate the influence of energy deficit on the spacecraft fail-safe concept is illustrated.
Keywords: energy deficit, non-standard modes, procedure
1. Belov D. G. Forming the program of spacecraft operation under electric power constraints. Kosm. nauka tehnol., 3 (5-6), 120—126 (1997) [in Russian].
2. Belov D. G. Probabilistic estimation of electric energy supply for spacecraft. Kosm. nauka tehnol., 8 (4), 37—42 (2002) [in Russian].
3. Belov D. G. Electric power supply of spacecraft fail-safety under solar array pointing failure. Kosm. nauka tehnol., 12 (4), 20—23 (2006) [in Russian].
4. Belov D. G. Estimation and modeling of the energy survivability of the spacecraft. In: Kosmicheskaja tehnika. Raketnoe vooruzhenie: Nauchno-tehn. sb., Is. 1-2, 159— 167 (GKB Juzhnoe, Dnepropetrovsk, 2006) [in Russian].
5. Bordina N. M., Vasil'ev A. M., Daletskii G. S., Landsman A. P. Determining the Direct Solar-Radiation Flux Incident on a Solar Cell. Kosmicheskie Issledovaniia, 8 (3), 453—457 (1970) [in Russian].
6. Industrial product dependability. General concepts. Terms and definitions: GOST 27.002-89, 37 p. (Izd-vo standartov, Moscow, 1990) [in Russian].
7. Dedkov V. K., Severtsev N. A., Kuyundzhich S. M. Ensuring the survivability of complex technical systems of space vehicles. In: Astronautics. Radio Electronics. Geoinformatics: Abstracts of the 3rd Intern. scientific and technical conf., 68—70 (Ryazan, 2000) [in Russian].
8. Solodov A.V. (Ed.) Engineering Handbook of Space Technology, 693 p. (Voenizdat, Moscow, 1969) [in Russian].
9. Kolin K. K., Lipaev V. V. Design of control computer algorithms, 344 p. (Sov. radio, Moscow, 1970) [in Russian].
10. Konyukhov S. N., Fedyakin A. I. Probability-statistical methods to design space launch systems, 250 p. (Ukraine’s National Academy of Sciences and National Space Agency’s Institute of Engineering Mechanics, Dnepropetrovsk, 1997) [in Russian].
11. Lataiko P. A. Running and Integrated Solar Illumination on the Surfaces of a Satellite Oriented toward the Earth. Kosmicheskie Issledovaniia, 7 (3), 450—454 (1969) [in Russian].
12. Nikiforov V. Analysis of the power capabilities of the power supply system in abnormal microsatellite operation modes. In: Small satellites: new technologies, miniaturization, areas of effective use in the 21st century: Proc. 3 Int. confer.-exhibition, Vol. 1, 300—304 (Korolev, 2002) [in Russian].
13. Konyukhov S. N. (Ed.) Rockets and spacecraft of the Yuzhnoye Design Bureau, 260 p. (Izd-vo Kompanija KIT, Kiev, 2004) [in Russian].
14. Snapelev Yu. M., Staroselskiy V. A. Simulation and control in complex systems, Ed. by N. P. Buslenko, 264 p. (Sovetskoe radio, Moscow, 1974) [in Russian].
15. Belov D. G. Electric Power System for the Solar Satellite. 45th Congress of the International Astronautical Federation. AIAA Preprint IAF—94—R.3.381, 3 p. (Jerusalem, Israel, 1994).

16. Belov D. G., Dranovsky V. J., Perecopsky I. T. Electric Power Ensuring Small Satellite Board Equipment. 46th Congress of the International Astronautical Federation. AIAA Preprint IAF—95—IAA.l 1.2.09, 5 p. (Oslo, Norway, 1995).