Berdai Abdelmajid; Abdelhadi El Moudden; Chornyi O.P.

Study of the Characteristics and Computation Analysis Results of Electromechanical Systems Models

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Author(s)

Berdai Abdelmajid ^1,* Abdelhadi El Moudden ¹ Chornyi O.P. ²

1. National School of Electricity and Mechanics, ENSEM University Hassan II Ain Chock, Casablanca, Morocco

2. Kremenchuk Mykhailo Ostrohradskyi National University, Kremenchuk Ukraine

* Corresponding author.

DOI: https://doi.org/10.5815/ijitcs.2011.05.01

Received: 14 Feb. 2011 / Revised: 10 Jun. 2011 / Accepted: 23 Aug. 2011 / Published: 8 Nov. 2011

Index Terms

Electromechanical system model, differential equations, discontinuous functions

Abstract

Today, simulation of electrical drives with asynchronous motors based on systems of differential equations is regarded as one of the principal means of their research study. The difficulty of the simulation is determined by the need for accuracy of the results obtained and the complexity of the mathematical model’s differential equations. In this article, we present a study of the particularities of the simulation of electrical drives systems with asynchronous motors. We have studied models composed of three-phase and orthogonal coordinates systems and we have shown that qualitative and quantitative differences exist in the process of changing the angular speed of the rotor and electromagnetic torque. The result obtained is above all influenced by the non-linear character of the load opposing a fan-type or “dry friction”-type resistant torque. For dual-earthed electromagnetic actuation with the moments of the resistant torques indicated, integration of differential equation systems was carried out with various digital methods used in professional mathematical software for simulation.

Cite This Paper

Berdai Abdelmajid, Abdelhadi El Moudden, Chornyi O.P., "Study of the Characteristics and Computation Analysis Results of Electromechanical Systems Models", International Journal of Information Technology and Computer Science(IJITCS), vol.3, no.5, pp.1-11, 2011. DOI:10.5815/ijitcs.2011.05.01

Reference

[1]Karlaschuk V.I. Electronic lab to IBM PC. T. 1. Modeling elements of analog systems - 6 th ed. . M: Salon - P, 1999.- p. 590.

[2]German - Galkin S.G. Computer simulation of semiconductor systems in MATLAB 6.0 : Proc. manual for high schools. Edition - CROWN print , 2001.- p.320.

[3]Bacvalof N.C. Numerical method / Bakhvalov, N. Zhidkov, GM Kobelkov - 3rd ed., ext. and revised. - M.: BINOM Knowledge of Laboratory 2004. p.636

[4]E. Hairer, Nersett S., Wanner G. Solve ordinary differential equations. Nonrigid problems. Moscow: Mir, 1990, p. 512.

[5]E. Hairer, G. Wanner, Solve ordinary differential equations. Rigid and differential - algebraic problems. Moscow: Mir, 1999. p.685.

[6]Skvortsov L.M., Adaptive methods of numerical integration for modeling dynamic systems // Izv. RAN. Theory and control system. 1999. № 4. p. 72-78.

[7]Skvortsov L.M. Explicit adaptive methods for the numerical solution of stiff systems, mathematical modeling. T. 12. 2000. № 2. p.97 -107.

[8]Levenshtam V.B. Hatlamadzhiyan G.L. Distribution of homogenization theory to differential equations, containing a rapidly oscillating terms with large amplitudes. Problem of periodic solutions, "Izv. high schools. Math. 2006. № 6. p. 35-47.

[9]Egorov A.I. Ordinary differential equations with applications / Yegorov - 2 nd ed. Corr. - Moscow: FIZMATLIT, 2005. p.384.

[10]Chornyi O.P. Peculiarities of numerical integration method of differential equations systems for electromechanical systems models. /Chornyi O.P., Berdai Abdelmajid // Electromechanical and energy-efficient systems. Kremenchug: National university of Kremenchug, 2010. - Vyp.3/2010 (11), p.46 -51.

[11]Kopylov I.P. Mathematical modeling of electrical machines: Manual for high schools for spec. «Electrical machines”. Moscow: High School, 1987, p.248s.

[12]E.M. Potapenko , Robust algorithms for vector control of asynchronous drive / EM Potapenko, Potapenko, EE. - Zaporozhye . ZNTU, 2009, p.352.

[13]C.-M. Ong, Dynamic Simulation of Electric Machinery Using Matlab/Simulink, Upper Saddle River, Prentice Hall, 1998, 626p.

[14]Algorithm of Generating PWM converters for Modeling and Control of Electrical Drives. Chornyi O.P, O.V.Ostapenko, O.S. Vorobeichik, I.V. Urdìn, J.A. Topčiênko. // Electromechanical and energy-efficient systems. Kremenchug: National university of Kremenchug, 2010. - Vyp.1/2009 (5), p.39 -42.

International Journal of Information Technology and Computer Science (IJITCS)