Current and flux regulation in field-weakening operation [of induction motors]

Author

Briz, Fernando ; Diez, Alberto ; Degner, MichaelW ; Lorenz, Robert D.

Author_Institution

Dept. of Electr. Comput. & Syst. Eng., Oviedo Univ., Spain

Volume

37

Issue

1

fYear

2001

Firstpage

42

Lastpage

50

Abstract

Field-weakening techniques have been developed which provide maximum torque capability above rated speed. Unfortunately, most of these techniques are valid only for steady-state operation and show significant sensitivity to DC-bus voltage and machine parameters. This paper analyzes the requirements of dynamically providing maximum torque under field-weakening operation. Three major issues are addressed: current regulator design; saturation techniques for current regulators in order to ensure best performance under voltage constraints; and flux regulator design to minimize transient errors when varying flux. Maximum DC-bus utilization through the proper use of saturation techniques, dynamic response and reduced sensitivity are the advantages of the proposed solution

Keywords

control system analysis; control system synthesis; dynamic response; electric current control; induction motors; machine theory; machine vector control; magnetic flux; magnetic variables control; sensitivity analysis; torque control; DC-bus voltage sensitivity; current regulation; current regulator design; dynamic response; field-weakening operation; flux regulation; flux regulator design; induction motor vector control; machine parameters sensitivity; maximum DC-bus utilization; maximum torque capability; saturation techniques; steady-state operation; voltage constraints; Electric machines; Industry Applications Society; Inverters; Power electronics; Production; Regulators; Steady-state; Torque; Traction motors; Voltage;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/28.903125

Filename

903125