Title :
Stator and rotor flux based deadbeat direct torque control of induction machines
Author :
Kenny, Barbara H. ; Lorenz, Robert D.
Author_Institution :
NASA Glenn Res. Center, Cleveland, OH, USA
Abstract :
A new deadbeat type of direct torque control is proposed, analyzed and experimentally verified in this paper. The control is based on stator and rotor flux as state variables. This choice of state variables allows a graphical representation which is transparent and insightful. The graphical solution shows the effects of realistic considerations such as voltage and current limits. A position and speed sensorless implementation of the control, based on the self-sensing signal injection technique, is also demonstrated experimentally for low speed operation. The paper first develops the new, deadbeat DTC methodology and graphical representation of the new algorithm. It then evaluates feasibility via simulation and experimentally demonstrates performance of the new method with a laboratory prototype including the sensorless methods.
Keywords :
asynchronous machines; control system analysis; control system synthesis; machine theory; machine vector control; magnetic flux; position control; rotors; stators; torque control; velocity control; control design; control performance; control simulation; flux-based deadbeat direct torque control; induction machines; low speed operation; position sensorless control; rotor flux; self-sensing signal injection technique; speed sensorless control; state variables; stator flux; Equations; Induction machines; Laboratories; NASA; Pulse width modulation; Sensorless control; Stators; Torque control; Virtual prototyping; Voltage;
Conference_Titel :
Industry Applications Conference, 2001. Thirty-Sixth IAS Annual Meeting. Conference Record of the 2001 IEEE
Conference_Location :
Chicago, IL, USA
Print_ISBN :
0-7803-7114-3
DOI :
10.1109/IAS.2001.955403
