The Influence of Pole Pair Number and Magnets' Width on Mechanical Torque of Magnetic Coupler with Rounded Permanent Magnets
References П. С. Сергеев, Н. В. Виноградов и Ф. А. Горяинов, Проектирование электрических машин. Москва: Энергия, 1969.г., 632 с. QuickField User' Guide version 5.8. Available: http://www.quickfield.com A. Ya. Krasil'nikov and A. A. Krasil'nikov, "Calculation of the torque of a cylindrical magnetic clutch," Khimicheskoe I Neftegazovoe Machinostroenie, No. 3, pp. 8-10, 2009. L. Jing-fang, H. Choi and M. Walmer, Design of Permanent Magnet Systems Using
Simulation of Automotive Starter Faults
Abstract
The article presents a new diagnostic method of a motor starter based on the analysis of the starter’s power and the Hall effect. Using the Matlab Simulink program the wear and tear impact of the starter sleeves on power characteristics was simulated. For the analysis of the flux propagation and the distribution of magnetic induction for selected states of the wear and tear of the sleeve the QuickField program was used. Within the experimental tests, registration of the distribution of magnetic induction was conducted by the Hall sensor placed in the link slot. The model and the tests made it possible to develop diagnostic patterns within the OBD diagnostics.
Simulation of automotive starter faults
Abstract
The article presents a new diagnostic method of a motor starter based on the analysis of the starter’s power and the Hall effect. Using the Matlab Simulink program the wear and tear impact of the starter sleeves on power characteristics was simulated. For the analysis of the flux propagation and the distribution of magnetic induction for selected states of the wear and tear of the sleeve the QuickField program was used. Within the experimental tests, registration of the distribution of magnetic induction was conducted by the Hall sensor placed in the link slot. The model and the tests made it possible to develop diagnostic patterns within the OBD diagnostics.
Formula Synthesis of Maximal Mechanical Torque on Volume for Cylindrical Magnetic Coupler
mashin. Kiev: Gosudarstvennoje izdatelstvo tehnicheskoj literaturi USSR (RU), 1952. 736 s. [10] QuickField User’ Guide version 5.8. [Online]. Available: http://www.quickfield.com [Accessed May 2, 2012]. [11] V. О. Eglais, Аpproksimacija tablishnih dannih mnogomernim uravnenijem regressiji: Voprosi dinamiki i prochnosti. Rigа, 1981. Vip. 39, s. 120.-125 (RU). [12] A. Janushevskis, E. Lavendelis and O.Onzevs, "Method for optimization of random vibrations of non-linear mechanical system". Proceedings of IUTAM / IFToMM
Metamodels for Optimum Design of Outer-Rotor Synchronous Reluctance Motor
. Protodyakonov, R. I. Teder, Method of the experiments rational design, Moscow, Russia: Science, 1973 (in Russian). [8] A. Janushevskis, J. Auzinsh, Design and analysis of experiments, Riga, Latvia: RTU, 2007 (in Latvian) [9] QuickField. Finite Element Analysis System. Version 5.7. User’s Guide. Denmark: Tera Analysis, 2010. [10] L. Lavrinovicha, J. Dirba, N. Lavrinovich, Magnetostatic analysis of surface-mounted permanent magnet motor with external rotor for use in electric hand planer. Electric Power Engineering (EPE) Conf
Hybrid Excitation of the Axial Inductor Machine
Doctoral Thesis. Riga,. QuickField User' Guide, version 5.8. WEB http://www.quickfield.com
Basic Statements of Research and Magnetic Field of Axial Excitation Inductor Generator
References D. A. But, "Contactless electrical machines," Moscow: Vyshaya Shkola, 1990 (in Russian). N. Bianchi, "Electrical Machine Analysis using Finite Elements," Boca Raton, FL: CRC Press, 2005. "QuickField. Finite Element Analysis System. Version 5.7. User Guide," Denmark: Tera Analysis, 2009.
Optimization of the magnetic circuit of an axial inductor machine
. Sci. (2), pp. 13-20, 2009. S. Orlova, V. Pugachov, N. Levin, E. Kamolins, "Rational geometry of a magnetic circuit of an axial inductor generator". Proceedings of the 4 TH International Conference on Electrical and Control Technologies , Kaunas, Lithuania, 2009.-219-222.pp. QuickField User' Guide, version 5.5. WEB http://www.quickfield.com
Physical and Technical Energy Problems
Systems. 3rd ed-n. Oxford: Newness. 6. Kopilov, I.P. (1986). Electrical machines. Moscow: Energoatomizdat (in Russian). 7. Dirba, J., Ketners, K., Levins, N., Orlova, S., & Pugacev, V. (2011). Outer-rotor synchronous reluctance motor . Patent of the Republic of Latvia LV14314 B 20.06.2011 (in Latvian). 8. User's Guide (2010). QuickField. Finite Element Analysis System. Version 5.7. Denmark: Tera Analysis. Available at: http://www.quickfield.com. 9. Bianchi, N. (2005). Electrical Machine Analysis
Electric Machines with Non-Radially Mounted Rectangular Permanent Magnets / Elektriskās Mašīnas Ar Prizmatiskiem Neradiāli Novietotiem Pastāvīgajiem Magnētiem
(2010). QuickField. Finite Element Analysis System. Version 5.7. Denmark: Tera Analysis, available at: http://www.quickfield.com [Accessed: Apr. 1, 2012] 9. Levins, N., Dirba, J., Lavrinoviča, L., & Pugačevs, V. (2012). Ātrgaitas magnetoelektriskais sinhronais dzinējs. Latvijas Republikas patenta pieteikums Nr P-12-40 no 13.03.2012