Adjustable electric drive for laser technological installations: assessment of metrological characteristics by the method of circuit simulation

In this paper describes the current direction in the development of machine tool industry – the introduction of laser technological installations. Methods are given for improving the quality of operations performed on laser machines, for example, operations for cutting sheet materials. The need to improve the method of controlling the adjustable electric drive of laser systems is shown. The features of the construction of information-measuring and control systems of the electric drive are considered. The operation of an adjustable electric drive based on a brushless DC motor with an original arrangement of sensors has been studied. The metrological characteristics of an adjustable electric drive are numerically estimated by the method of circuit simulation. The reliability of the obtained data is experimentally confi rmed by the results of tests of the mock-up sample.

1. Vaks E. D., Milenkiy M. N., Saprykin L. G., Practice of precision laser processing, Moscow, Technosphere Publ., 2013, 696 p. (In Russ.)

2. Sleptsov V. V., Most ovskoy M. V., Determination of technical requirements for electric drive control systems in metal laser cutting machine, Zakonodatel’naya i prikladnaya metrologiya, 2019, no. 6 (6), pp. 27–29. (In Russ.)

3. Sleptsov V. V., Mostovskoy M. V., Methods for assessing the metrological characteristics of a controlled electric drive by the method of circuit simulation, Zakonodatel’naya i prikladnaya metrologiya, 2021, no. 1 (6), pp. 22–26. (In Russ.)

4. Ovchinnikov I. E., Valve electric motors and drives based on them (course of lectures), St. Petersburg, KORONA-Vek Publ., 2016, 336 p. (In Russ.)

5. German-Galkin S. G., Matlab & Simulink. Designing mechatronic systems on a PC, St. Petersburg, KORONA-Vek Publ., 2008, 368 p. (In Russ.)

6. Tashakori A., Ektesabi M., Hosseinzadeh N., Modeling of BLDC Motor with Ideal BackEMF for Automotive Applications, Proceedings of the World Congress on Engineering WCE 2011, London, U.K., July 6–8, 2011, vol. II, рр. 1504–1508.

7. Mehmet Çunkas, Omer Aydoğdu, Mathematical and Computational Applications, 2010, vol. 15, no. 2, pp. 218–229. https://doi.org/10.3390/mca15020218

8. German-Galkin S. G., Multivariate analysis of a valve drive with a non-contact DC motor, Silovaya elektronika, 2017, no. 4, рp. 72–79. (In Russ.)

9. German-Galkin S. G., Computer modeling of semiconductor systems in Matlab 6.0: Textbook, St. Petersburg, Korona Print Publ., 2017, 320 p. (In Russ.)

10. Vysotsky V. E., Voronin S. M., Gorshkov R. G., Simulation modeling of electromagnetic and electromechanical processes of a valve motor, Vestnik IGEU, 2011, no. 1, рp. 1–4. (In Russ.)

11. Richard Crowder, Electric Drives and Electromechanical Systems, Elsevier, 2006, 309 p.