Switched reluctance motor drive control algorithms with single line position feedback signal usage and custom phase locked loop microcontroller implementation

• Autorzy: Fabianski B
• Konferencja: Computer Applications in Electrical Engineering 2012 (23-24.04.2012; Poznań, Polska)
• Języki publikacji: EN

Abstrakty

EN

There was presented a frequency multiplication of a single, binary rotor position feedback signal implementation in the article. This technique was necessary to achieve wide-speed control range and improved dynamics. In the beginning a basics of the switched reluctance motors construction were described as the control system challenges were. A nature of the reduced up to one position feedback signal interface line was shown as the reference for phase locked loop system. The problem of low resolution and asymmetrical shape of the mechanical position sensor was described with its solving by embedded system optimized SPLL loop usage. There were appropriate theory dependencies introduced for phase locked loop system as confirming experimental results were shown. In the summary, conclusions were made and the further research steps were proposed. Additionally, custom made drive system for switched reluctance motor and the motor as the control object itself were introduced.

Słowa kluczowe

EN

switched reluctance motor; SRM; electric motor

• Wydawca: Wydawnictwo Politechniki Poznańskiej
• Czasopismo: Computer Applications in Electrical Engineering
• Rocznik: 2012
• Tom: Vol. 10
• Strony: 171--180
• Opis fizyczny: Bibliogr. 10 poz., rys.

Twórcy

autor

Fabianski B

• Poznan University of Technology 60-965 Poznan, Piotrowo 3a

Bibliografia

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• [3] Fabianski B., Synchronizacja fazowa silnika reluktancyjnego przełączalnego na podstawie asymetrycznego sygnału sprzężenia zwrotnego, Studia z Automatyki i Informatyki, tom 36, p. 15-26, Poznan 2011.
• [4] Deskur J., Maciejuk A., Application of digital phase locked loop for control of SRM drive, 12th European Conference on Power Electronics and Applications (EPE), Aalborg 2007.
• [5] Vukosavic S., Stefanovic V.R., SRM inverter topologies: a comparative evaluation, Industry Applications Society Annual Meeting, 946 - 958 vol.2, 1990.
• [6] Fabianski B., Przekształtnik napędu silnika reluktancyjnego przełączalnego, SENE Conference, CD ISBN: 978-83-7283-439-3, Lodz 2011.
• [7] Banerjee D., PLL Performance, Simulation and Design, 2006, www. national. com/assets/en/boards/deansbook4. pdf.
• [8] Jin-Woo Ahn, Seok-Gyu Oh, Sung-Young Pyo, Cheul-U Kim, Young-Moon Hwang, Digital PLL Technique for Precise Speed Control of SR Drive, Power Electronics Specialist Conference (PESC), p.815-819 vol. 2, 1999.
• [9] Zawirski K. (kierownik), Bezczujnikowe sterowanie silnikiem reluktancyjnym przełączalnym, sprawozdanie z projektu 3T10A06427, p. 48-57, Poznan 2007.
• [10] Sozer Y., Torrey D.A., Optimal turn-off angle control in the face of automatic turn- on angle control for switched-reluctance motor, Electric Power Applications, IET, p.395-401, 2007.