Derivation and verification of a vector controller for induction machines with consideration of stator and rotor core losses

Woei Luen Chen; Kai Mou Cheng; Kun Feng Chen

doi:10.1049/iet-epa.2016.0654

Derivation and verification of a vector controller for induction machines with consideration of stator and rotor core losses

Woei Luen Chen^*
, Kai Mou Cheng
, Kun Feng Chen

^*Corresponding author for this work

University of Taipei
Chung-shan Institute of Science and Technology Taiwan

Research output: Contribution to journal › Journal Article › peer-review

7 Scopus citations

Abstract

The equivalent circuit of an induction machine (IM) without regard to iron loss would lead not only significant mismatch between simulation and experimental results but also deteriorate the vector control performance. This study focuses on modifying the indirect rotor flux-oriented controller subject to the IM equivalent circuit with consideration of stator and rotor core losses. An analytical approach based on the core-loss model for estimating the rotor slip shows salient impact of the stator and rotor core loss on IM performance. A 10 HP IM is performed for laboratory test. The experimental and simulation results validate that the modified vector controller is superior to the conventional vector controller in both transient and steady-state responses.

Original language	English
Pages (from-to)	1-11
Number of pages	11
Journal	IET Electric Power Applications
Volume	12
Issue number	1
DOIs	https://doi.org/10.1049/iet-epa.2016.0654
State	Published - 01 01 2018
Externally published	Yes

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© The Institution of Engineering and Technology.

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title = "Derivation and verification of a vector controller for induction machines with consideration of stator and rotor core losses",

abstract = "The equivalent circuit of an induction machine (IM) without regard to iron loss would lead not only significant mismatch between simulation and experimental results but also deteriorate the vector control performance. This study focuses on modifying the indirect rotor flux-oriented controller subject to the IM equivalent circuit with consideration of stator and rotor core losses. An analytical approach based on the core-loss model for estimating the rotor slip shows salient impact of the stator and rotor core loss on IM performance. A 10 HP IM is performed for laboratory test. The experimental and simulation results validate that the modified vector controller is superior to the conventional vector controller in both transient and steady-state responses.",

author = "Chen, \{Woei Luen\} and Cheng, \{Kai Mou\} and Chen, \{Kun Feng\}",

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year = "2018",

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doi = "10.1049/iet-epa.2016.0654",

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AU - Cheng, Kai Mou

AU - Chen, Kun Feng

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Y1 - 2018/1/1

N2 - The equivalent circuit of an induction machine (IM) without regard to iron loss would lead not only significant mismatch between simulation and experimental results but also deteriorate the vector control performance. This study focuses on modifying the indirect rotor flux-oriented controller subject to the IM equivalent circuit with consideration of stator and rotor core losses. An analytical approach based on the core-loss model for estimating the rotor slip shows salient impact of the stator and rotor core loss on IM performance. A 10 HP IM is performed for laboratory test. The experimental and simulation results validate that the modified vector controller is superior to the conventional vector controller in both transient and steady-state responses.

AB - The equivalent circuit of an induction machine (IM) without regard to iron loss would lead not only significant mismatch between simulation and experimental results but also deteriorate the vector control performance. This study focuses on modifying the indirect rotor flux-oriented controller subject to the IM equivalent circuit with consideration of stator and rotor core losses. An analytical approach based on the core-loss model for estimating the rotor slip shows salient impact of the stator and rotor core loss on IM performance. A 10 HP IM is performed for laboratory test. The experimental and simulation results validate that the modified vector controller is superior to the conventional vector controller in both transient and steady-state responses.

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JO - IET Electric Power Applications

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ER -

Derivation and verification of a vector controller for induction machines with consideration of stator and rotor core losses

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