Abstract
Abstract The paper discusses the theoretical background of the state space modeling of induction machines. The main goal is to present the necessary equations of the induction machine and the topic of the state space modeling. Although the induction machine is a highly non-linear system, LPV/qLPV model can be formulated from these equations.
Highlights
The objective of this work is to discuss the theory of state space modeling of induction machines including the necessary equations and theoretical background.The increasing penetration of electrical machines in all parts of the world can be observed, but the available models are still containing a lot of simplifications
The main goal is to present the necessary equations of the induction machine and the topic of the state space modeling
The objective of this work is to introduce the basic knowledge of state space modeling of induction machines
Summary
The objective of this work is to discuss the theory of state space modeling of induction machines including the necessary equations and theoretical background. The increasing penetration of electrical machines in all parts of the world can be observed, but the available models are still containing a lot of simplifications. Despite of the large amount of knowledge, even the newest models do not contain the frequency dependency, and only a few has a state estimator for the rotor temperature [1]-[5]. The integration of the temperature and frequency dependency into the state space models requires the basic knowledge of the behavior. The future work is going to be the extension of the basic model introduced in this paper with the above-mentioned
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