Determining the mechanical losses in a high-speed motor on the ex ample of a flywheel energy storage system

• Autorzy: Baszyński M. , Piróg S.
• Języki publikacji: EN

Abstrakty

EN

Department of Electrical Drive and Industrial Equipment University of Science and Technology (AGH) The article describes the method of determining mechanical losses and electromagnetic motor torque on the example of a flywheel energy storage system utilizing BLDC motor. The description of the test stand contains: the topology of power factor correction boost rectifier, an inverter supplying the BLDC motor, and the measuring system. The detailed experimental results are included in the paper.

Słowa kluczowe

EN

BLDCPM; high speed drive; flywheel energy storage system; FPGA

PL

FPGA; szybki napęd

• Wydawca: Polish Academy of Sciences, Committee on Electrical Engineering
• Czasopismo: Archives of Electrical Engineering
• Rocznik: 2012
• Tom: Vol. 61, nr 3
• Strony: 299--313
• Opis fizyczny: Bibliogr. 18 poz., rys.

Twórcy

autor

Baszyński M.

autor

Piróg S.

• Department of Electrical Drive and Industrial Equipment University of Science and Technology (AGH),

Bibliografia

• [1] Piróg S., Baszyński M., Siostrzonek T., Energy Storage – The High-Speer Flywheel Energy Storage System. SCIYO, pp. 37-67.
• [2] Piróg S., Electromechanical energy storage as a new generation mechatronic system. Electrical Review 9: 321-327 (2009).
• [3] Bernat J., Stępień S., Application of optimal current driver for the torque control of BLDC motor. Archives of Electrical Engineering 60(2): pp. 149-158 (2011).
• [4] Ciurys M., Dudzikowski I., Transients of electrical and mechanical quantities of a brushless DC motor – computations, measurements. Archives of Electrical Engineering 60(1): 23-34 (2011).
• [5] Zarudzki J., Grzegorski J., Skotniczny J., Torque-speed characteristic of the drive with a changingover reluctance motor. Electrical Review 5: 127-132 (2001).
• [6] Piróg S., Baszyński M., Siostrzonek T., The high speed drive control system for the household appliances. X Konferencja Naukowa Sterowanie w Energoelektronice i Napędzie Elektrycznym SENE 2009, (2009)
• [7] Baszyński M., Piróg S., The high speed drive control system for the low power induction machine. Electrical Review 3: 151-156 (2011).
• [8] Bernat J., Stępień S., Induction motor analysis employing optimal torque predictor and massive conductor approach. Archives of Electrical Engineering 59(1-2): 99-107 (2010).
• [9] Baszyński M., Power factor correction boost rectifiers for the household appliances. Electrical Review 2: 237-242 (2011).
• [10] Piróg S., Energoelektronika. Power electronics: systems with network and hard commutations. WND AGH, Kraków (2006).
• [11] Baszyński M., A model of the three-phase bridge rectifier with sinusoidal source current using FPGA implementation. Electrical Review 3: 36-41 (2009).
• [12] Baszyński M., A model of the single-phase multicell rectifier with sinusoidal source current using FPGA implementation. Electrical Review 10: 76-82 (2009).
• [13] Piróg S., Baszyński M., Single phase, three cells AC/DC converter with sinusoidal current source, Pt. 1. Electrical Review 3: 42-47 (2009).
• [14] Piróg S., Baszyński M., Single phase, three cells AC/DC converter with sinusoidal current source, Pt. 2. Electrical Review 4: 90-93 (2009).
• [15] Baszyński M., Penczek A., Piróg S. et al., Phase-locked loop for grid-connected power electronics converters. Electrical Review 2: 335-341 (2010).