ISSN 0021-3454 (print version)
ISSN 2500-0381 (online version)
Menu

8
Issue
vol 63 / August, 2020
Article

DOI 10.17586/0021-3454-2019-62-11-1030-1033

UDC 621.313.8; 537.613

TEST BENCH FOR SYNCHRONOUS BRUSHLESS MOTOR

A. A. Silaev
ITMO University, Department of Introscopy Technologies; Post-Graduate Student


M. Y. Marusina
ITMO University, Saint Petersburg, 197101, Russian Federation; Professor, Scientific Secretary


D. A. Nevmerzhitsky
ITMO University, Faculty of Secure Information Technologie;


Abstract. Several features of the design of the executive mechanism of the load stand for testing engines are considered. A magnetic coupling is used to measure torque and rotational speed. Parameters of the magnet-ic coupling as well as of the motor-generator used as the load device, are calculated using the finite element method. Based on presented results of numerical modeling, the main characteristics of the stand are ob-tained.
Keywords: load stand, magnetic coupling, torque sensor, synchronous motor, finite element method

References:
  1. Zhukov V.P., Nesterin V.A. Russian Electrical Engineering, 2000, no. 6, pp. 19–21. (in Russ.)
  2. Gieras J.F., Wing M. Introduction in Permanent Magnet Motor Technology, NY, Marcel Dekker Inc., 2002, vol. 1, рp. 12–13.
  3. Lubin T., Mezani S., Rezzoug A. IEEE Transact. on Industrial Electronics, 2013, no. 61, pp. 4356–4365. 10.1109/TIE.2013.2266087.
  4. Brock S., Deskur J., Janiszewski D., Muszynski R. Power Electronics and Electrical Drivers – Selected Problems, 2007, рр. 271–290.
  5. Marusina M.Ya. Korrektsiya neodnorodnosti osnovnogo magnitnogo polya mr-tomografa na postoyannykh magnitakh (Correction of The Inhomogeneity of The Main Magnetic Field of MRI Scanner with Permanent Magnets), Candidate’s Thesis, St. Petersburg, 1993, 128 р. (in Russ.)
  6. Galaydin P.A., Ivanov V.A., Marusina M.Ya. Raschеt i proyektirovaniye elektromagnitnykh sistem magnitorezonansnykh tomografov (Calculation and Design of Electromagnetic Systems of Magnetic Resonance Tomography), St. Petersburg, 2004, 87 р. (in Russ.)
  7. Marusina M.Y., Bazarov B.A., Galaidin P.A. et al. Measurement Techniques, 2014, no. 57, pp. 461. DOI:10.1007/s11018-014-0478-0.
  8. Marusina M.Y., Bazarov B.A., Galaidin P.A. et al. Measurement Techniques, 2014, no. 57, pp. 580. DOI:10.1007/s11018-014-0501-5.
  9. Vitkovskii O.S., Marusina M.Y. Measurement Techniques, 2016, no. 59, pp. 247. DOI:10.1007/s11018-016-0952-y.
  10. Marusina M.Ya., Silayev A.A. Journal of Instrument Engineering, 2018, no. 8(61), pp. 701–705. DOI: 10.17586/0021-3454-2018-61-8-701-705.