Title :
Traction system for an EV based on induction motor and 3-level NPC inverter multilevel converters
Author :
González, Mario A. ; Escalante, Miguel F.
Author_Institution :
DIE-FIME-UANL, San Nicolas de los Garza, Mexico
Abstract :
This work presents the modeling of the dynamics of an electric vehicle (EV). Then, by using a typical driving cycle, the parameters for the motor drive system and other drive train components are determined. The proposed drive system is based on an induction motor being supplied by a 3-level NPC inverter. The speed control is based on a constant V/Hz strategy while the inverter is commanded by a Sinusoidal Pulse Width Modulation Strategy. The proposed drive system is validated by simulation. In one hand, the results show that the implemented V/Hz control strategy is capable of maintain the reference speed, as demanded by a driving pattern, and on the other hand, the strategy used to control de NPC multilevel inverter, is capable of assuring the demanded output voltage and the inverter internal variables are kept as needed.
Keywords :
PWM invertors; electric vehicles; induction motor drives; traction; velocity control; 3-level NPC inverter; drive train components; electric vehicle; induction motor; motor drive system; multilevel converters; multilevel inverter; neutral point clamped inverter; sinusoidal pulse width modulation; speed control; traction system; Force; Induction motors; Inverters; Motor drives; Torque; Traction motors; Vehicles; EV model; Electric Vehicle; Induction motor drive; NPC multilevel converter;
Conference_Titel :
Power Electronics Congress (CIEP), 2010 12th International
Conference_Location :
San Luis Potosi
Print_ISBN :
978-1-4244-8066-1
DOI :
10.1109/CIEP.2010.5598833
