Constrained online efficiency optimization to guarantee load support in motor drives

Online efficiency optimization is an attractive option that can be easily integrated into motor drive software. Most of these online efficiency optimization methods reduce the flux in the machine, but flux reduction can have operational drawbacks. If a machine operates at a certain load with low flux when a load step-up occurs, the flux might not be sufficient to support the new load torque. Such a scenario could be common in dynamic load applications such hybrid and electric vehicles with abrupt braking and acceleration. An overload under flux weakening will cause the machine to stall. This paper investigates constrained loss minimization in induction machines. Results show that it is possible to update the flux optimization constraints to guarantee load support. They also show that shifting the power loss function dynamically can help this load support.

[1]  A. Kaddouri,et al.  Loss minimization control of induction motor drives based on genetic algorithms , 2001, IEMDC 2001. IEEE International Electric Machines and Drives Conference (Cat. No.01EX485).

[2]  Ali M Bazzi,et al.  Review of Methods for Real-Time Loss Minimization in Induction Machines , 2010, IEEE Transactions on Industry Applications.

[3]  A. Mannan,et al.  Efficiency optimized speed control of field oriented induction motor including core loss , 2002, Proceedings of the Power Conversion Conference-Osaka 2002 (Cat. No.02TH8579).

[4]  Scott D. Sudhoff,et al.  Analysis of Electric Machinery and Drive Systems , 1995 .

[5]  S. Lim,et al.  Loss-minimising control scheme for induction motors , 2004 .

[6]  R. S. Wieser Optimal rotor flux regulation for fast accelerating induction machines in the field weakening region , 1997, IAS '97. Conference Record of the 1997 IEEE Industry Applications Conference Thirty-Second IAS Annual Meeting.