Title :
Sensorless induction motor speed control with fast dynamic torque control
Author :
Sobha, Deepa Mary ; Joseph, S.C. ; Deepthi, S.
Author_Institution :
EEE Dept., RIT, Kottayam, India
Abstract :
Vector control is employed in induction motor drives to provide a fast torque response. Various vector control methods have been proposed before, among which Direct Torque Control provides high dynamic performance with very simple control scheme. Basic DTC scheme is based on hysteresis control of flux and torque. The dynamic torque performance is very important in traction and electric vehicle applications. A method to achieve fastest dynamic performance by modifying the basic DTC scheme is discussed in this paper. This is achieved by applying a single voltage vector that produces the largest tangential flux component, at the time of torque dynamics. The modified method is used in sensorless speed control of induction motor. The new scheme was analysed using SEQUEL simulation tool.
Keywords :
induction motor drives; machine control; torque control; velocity control; SEQUEL simulation tool; basic DTC scheme; direct torque control; dynamic torque performance; electric vehicle applications; fast dynamic torque control; fast torque response; fastest dynamic performance; flux control; high dynamic performance; hysteresis control; induction motor drives; sensorless induction motor speed control; sensorless speed control; single voltage vector; tangential flux component; torque dynamics; traction vehicle applications; vector control methods; Integrated circuits; Inverters; Space stations; Switches; Torque; Vehicles; DTC; Dynamic Torque Response; Modified DTC; SEQUEL simulation tool; Sensorless Speed Control;
Conference_Titel :
Signal Processing, Communication, Computing and Networking Technologies (ICSCCN), 2011 International Conference on
Conference_Location :
Thuckafay
Print_ISBN :
978-1-61284-654-5
DOI :
10.1109/ICSCCN.2011.6024653
