Search Results

1 - 5 of 5 items :

  • "vector control methods" x
Clear All

Abstract

Energy aspects are fundamental to the design of electric drive systems. This article describes energy performance for asynchronous electric drives based on various control methods. These electric drives comparison shows that vector control methods have a significant advantage over scalar control methods. The asynchronous electric drive mathematical description is based on vector control theory and main component method. Equations, obtained by mathematical description, allow calculating of the currents, voltages and electric power at the output when the electromagnetic torque and speed machine are set. Energy characteristics of the asynchronous drive were obtained with the use of the MATLAB-SIMULINK simulation program.

Drives, Automation and Motion. Sorrento: IEEE, pp. 409-414. Liu, K.-Z., Yokoo, M., Kondo, K. and Zanma, T. (2015). New Adaptive Vector Control Methods for Induction Motors with Simpler Structure and Better Performance. Control Theory and Technology, 13(2), pp. 173-183. Loeve, M. (2012). Probability Theory I. Graduate Texts in Mathematics. New York: Springer-Verlag. Orłowska-Kowalska, T. and Dybkowski, M. (2016). Industrial Drive Systems. Current State and Development Trends. Power Electronics and Drives, 1(1), pp. 5-25. Rigatos, G. and Siano, P. (2012). Sensorless

.134668. Tajima, H., Matsumoto, Y. and Umida, H. (1996). Speed Sensorless Vector Control Method for an Industrial Drive System. IEEJ Transactions on Industry Applications , 116(11), pp. 1103–1109. doi: 10.1541/ieejias.116.1103. Vazquez, S., Rodriguez, J., Rivera, M., Franquelo, L. G. and Norambuena, M. (2017). Model Predictive Control for Power Converters and Drives: Advances and Trends. IEEE Transactions on Industrial Electronics , 64(2). doi: 10.1109/TIE.2016.2625238. Wang, F., Chen, Z., Stolze, P., Stumper, J.-F., Rodríguez, J. and Kennel, R. (2014). Encoderless Finite

.S. Department of Agriculture. 1959. 33. Rozendaal JA. Vector control: method for use by individuals and communities. World Health Organization, Geneva, Switzerland. 1997. p. 52-177. 34. Mahanta B, Handique R, Dutta P, Narain K, Mahanta J. Temporal variations in biting density and rhythm of Culex quinquefasciatus in tea agro-ecosystem of Assam, India. Southeast Asia J Trop Med Pub Health. 1999; 30:804-9. 35. WHO. Guidelines for efficacy testing of insecticides for indoor and outdoor ground-applied space spray application. WHO/HTM/NTD/WHOPES/2009.2. 2009. p. 22-5.

, 35:211-6. 31. Axtell RC, Dukes JC, Edwards TD: Filed tests of diflubenzuron, methoprene, Flit mlo ® and chloropiryfos for the control of Aedes taeniorhynchus larvae in Diked dredged spoil areas. Mosq News 1979, 39:520-6. 32. Rozendaal JA: Vector control. Methods for use by individuals and communities. Chapter 1: Mosquitos and other biting Diptera: Prevention of breeding. WHO, Geneva; 1997, 112-155. 33. Jahan N, Razaq J, Jan A: Laboratory evaluation of Chitin Synthesis Inhibitors (Diflubenzuron and Buprofezin) Against Aedes aegypti Larvae from Lahore, Pakistan