Advanced Data-based Temperature Modeling of an External Rotor PM Machine Considering an Optional Housing

Daniel Wöckinger; Gerd Bramerdorfer; Thomas Krainer; Wolfgang Amrhein; Roland Keller; Bastian Mund

Advanced Data-based Temperature Modeling of an External Rotor PM Machine Considering an Optional Housing

Daniel Wöckinger, Gerd Bramerdorfer, Thomas Krainer, Wolfgang Amrhein, Roland Keller, Bastian Mund

Institute of Electrical Drives and Power Electronics

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

The focus of this study is on the transient thermal behavior of a brushless PMSM with external rotor and an optional housing. Therefore, a two-stage modeling process consisting of a classical thermal modeling using lumped parameter thermal networks (LPTNs) followed by a data-based parameter modification y ields a t hermal model with v ery high prediction accuracy across the entire safety operating area (SOA). First, the initial parameter determination is based on analytical and empirical approaches. Then, a generic algorithm is used to compensate uncertainties caused by model simplifications and a pproximations. For t his r eason, a f ully automated data acquisition i s r equired. A t est bench that allows a simultaneous acquisition of mechanical, electrical, and temperature data is discussed. Finally, the developed models are verified using measured data.

Original language	English
Title of host publication	IKMT2022, Innovative Kleinantriebs-und Kleinmotorentechnik, Linz, Österreich
Number of pages	7
Publication status	Published - Sept 2022

Fields of science

202 Electrical Engineering, Electronics, Information Engineering
202009 Electrical drive engineering
202011 Electrical machines
202025 Power electronics
202027 Mechatronics

JKU Focus areas

Digital Transformation
Sustainable Development: Responsible Technologies and Management

Cite this

@inproceedings{37e3b089baf24401b1fcde7b5f837dcc,

title = "Advanced Data-based Temperature Modeling of an External Rotor PM Machine Considering an Optional Housing",

abstract = "The focus of this study is on the transient thermal behavior of a brushless PMSM with external rotor and an optional housing. Therefore, a two-stage modeling process consisting of a classical thermal modeling using lumped parameter thermal networks (LPTNs) followed by a data-based parameter modification y ields a t hermal model with v ery high prediction accuracy across the entire safety operating area (SOA). First, the initial parameter determination is based on analytical and empirical approaches. Then, a generic algorithm is used to compensate uncertainties caused by model simplifications and a pproximations. For t his r eason, a f ully automated data acquisition i s r equired. A t est bench that allows a simultaneous acquisition of mechanical, electrical, and temperature data is discussed. Finally, the developed models are verified using measured data.",

author = "Daniel W{\"o}ckinger and Gerd Bramerdorfer and Thomas Krainer and Wolfgang Amrhein and Roland Keller and Bastian Mund",

year = "2022",

month = sep,

language = "English",

booktitle = "IKMT2022, Innovative Kleinantriebs-und Kleinmotorentechnik, Linz, {\"O}sterreich",

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TY - GEN

T1 - Advanced Data-based Temperature Modeling of an External Rotor PM Machine Considering an Optional Housing

AU - Wöckinger, Daniel

AU - Bramerdorfer, Gerd

AU - Krainer, Thomas

AU - Amrhein, Wolfgang

AU - Keller, Roland

AU - Mund, Bastian

PY - 2022/9

Y1 - 2022/9

N2 - The focus of this study is on the transient thermal behavior of a brushless PMSM with external rotor and an optional housing. Therefore, a two-stage modeling process consisting of a classical thermal modeling using lumped parameter thermal networks (LPTNs) followed by a data-based parameter modification y ields a t hermal model with v ery high prediction accuracy across the entire safety operating area (SOA). First, the initial parameter determination is based on analytical and empirical approaches. Then, a generic algorithm is used to compensate uncertainties caused by model simplifications and a pproximations. For t his r eason, a f ully automated data acquisition i s r equired. A t est bench that allows a simultaneous acquisition of mechanical, electrical, and temperature data is discussed. Finally, the developed models are verified using measured data.

AB - The focus of this study is on the transient thermal behavior of a brushless PMSM with external rotor and an optional housing. Therefore, a two-stage modeling process consisting of a classical thermal modeling using lumped parameter thermal networks (LPTNs) followed by a data-based parameter modification y ields a t hermal model with v ery high prediction accuracy across the entire safety operating area (SOA). First, the initial parameter determination is based on analytical and empirical approaches. Then, a generic algorithm is used to compensate uncertainties caused by model simplifications and a pproximations. For t his r eason, a f ully automated data acquisition i s r equired. A t est bench that allows a simultaneous acquisition of mechanical, electrical, and temperature data is discussed. Finally, the developed models are verified using measured data.

UR - https://www.ikmt-tagung.de/de

M3 - Conference proceedings

BT - IKMT2022, Innovative Kleinantriebs-und Kleinmotorentechnik, Linz, Österreich

ER -

Advanced Data-based Temperature Modeling of an External Rotor PM Machine Considering an Optional Housing

Abstract

Fields of science

JKU Focus areas

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