Scientific and Technical Journal

ELECTROTECHNIC AND COMPUTER SYSTEMS

ISSN Print 2221-3937
ISSN Online 2221-3805
START A TWO–MASS ELECTROMECHANICAL SYSTEM WITH BACKLASH
Abstract:
The possible dynamic loads in elements of a two–mass electromechanical system based on the gap in the mechanical transmission in various start–up the engine control laws. The simulation results.
Authors:
Keywords
DOI
References
1. Klyuchev V.I., and Terekhov V.M. Elektroprivod i avtomatizatsiya obshchepromyshlennykh mekhanizmov [Electric Drive and Automation of General–Purpose Machinery], (1980), Moskow, Russian Federation, Energy, pp. 360 (In Russian).
2. Gerasimyak R.P., and Leshchev V.A. Analiz i sintez kranovih elektromehanicheskih system [Analysis and Synthesis of Crane Electromechanical Systems], (2008), Odessa, Ukraine, SMIL, pp. 192 (In Russian).
3. Gerasimyak R. P., and Naydenko E. V. Nagruzki v kinematicheskih peredachah dvuhmassovoy elektromehanicheskoy sistemi v regime tormogenija [Loads in Kinematic Transfers Two–mass Electromechanical System During Braking]. (2015), Electro–technical and computer systems, Kiev, Ukraine, Vol. 1(93), pp. 15–22 (in Russian).
4. Gerasimyak R. P., and Naydenko E. V. Dvuhmassovaja electromehanicheskaja sistema s luftom v peredache v regime tormogenija [The kinematic transmission loads of two–mass electromechanical system with gear during braking]. (2015), Electro–technical and computer systems, Kiev, Ukraine, Vol.18(94), pp. 62–68 (in Russian).
5. Gerasimyak, R.P., and Naydenko, E.V Upravlenie asinhrpnnim electroprivodom mehanismjv povorota, obespechivayuchee snigenie dinamicheskih nagrusok [Management of asynchronous electric drive mechanisms pivot provides a reduction of dynamic loads]. (2008), Problems of Automated Electric. . Theory and Practice. – Kharkiv, Ukraine, Vol. 30, pp. 111– 112 (In Russian).
6. Busher V. V., and Naydenko E. V. Uchebniy programno–apparatniy maket dlja issledovanija dvuhmassovoy electromehanicheskoy sistemi [Educational hardware and software layout for research two–mass electromechanical system]. (2015), Electro–technical and computer systems, Kiev, Ukraine, Vol. 20 (96), pp.16–22 (in Russian).
7. Gerasimyak R. P., and Subbotin V. V. Uluchshenie kachestva perehodnih prozessov pri vibore zazora v elektromehanicheskih siste-mah [Improving the quality of transients in the selection of the gap in electromechanical sys-tems]. (2013), Electro–technical and computer systems, Kiev, Ukraine, Vol. 10 (86), pp.27–32 (in Russian).
8. Firago B. I., and Vasilyev D. S. Primenenie ustrojstv plavnogo puska i tormogenija asinhronnih dvigatelej v elektroprivodah kranovih mehanizmov peredvigenija [The use of soft starters and braking asynchronous motors in electric crane mechanisms of movement]. (2011), Electrical and Computer Systems, Kiev, Ukraine, Vol. 4(80), pp.30–38 (in Russian).
9. Smolyaninov D., Palis F., Horn P., and Grigorov O.W. Prior research of oscillation damping in cranes. Kranfachtangung Universität Magdeburg, 2002, pp. 113—128 (in Germany).
10. Smolyaninov D., Horn P., Krause F., and Palis F. Results of investigations of oscillation damping in cranes. Crane Symposium Technical University Dresden, 2003, pp. 107–116 (in Germany).
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2017-11-17 06:38:09

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