A Framework for the Analysis and Design of Vector Controllers for Induction Machines
Sorchini, Zakdy
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https://hdl.handle.net/2142/80987
Description
Title
A Framework for the Analysis and Design of Vector Controllers for Induction Machines
Author(s)
Sorchini, Zakdy
Issue Date
2006
Doctoral Committee Chair(s)
Krein, Philip T.
Department of Study
Electrical and Computer Engineering
Discipline
Electrical and Computer Engineering
Degree Granting Institution
University of Illinois at Urbana-Champaign
Degree Name
Ph.D.
Degree Level
Dissertation
Keyword(s)
Engineering, Electronics and Electrical
Language
eng
Abstract
The development of controllers for induction machines has been incremental rather than revolutionary. The traditional current-flux model is partially responsible for this, because the control objectives (torque and flux magnitude) are implicit to the model. This work makes contributions to the understanding and performance improvement of induction machine drive systems by establishing an alternative framework for the analysis and design of vector controllers. Two elements integrate this framework: an alternative induction machine model that explicitly considers the control objectives, and consideration of the multiple time scale behavior of the motor based on singular perturbation techniques. Using the framework, established controllers are analyzed. In particular, direct torque control (DTC) is formally derived, avoiding any heuristic arguments. New controllers are also proposed, which avoid the sensitivity to the leakage factor of the machine. By doing so, performance is directly tied to machine characteristics. These controllers (together with DTC) can be classified as high-performance controllers for high-performance induction motors. Closed-loop characteristics of the proposed controllers are analyzed in detail. The use of flux observers is also considered, with analysis results that extend to vector controllers in general. Performance of the proposed controllers is evaluated in detail, both by simulation and experimentation. Of the new controllers, the stator-flux-based one proved to be a viable alternative to field oriented control (FOC).
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