Dynamic Evaluation of the Overloading Potential of a Convection Cooled Permanent Magnet Synchronous Motor
Author
Summary, in English
In order to obtain the maximum efficiency from a
hybrid driveline it is crucial to optimize the power
distribution between the electric drive and the internal
combustion engine. An accurate estimation of how much
electric power can be delivered at any instant of time is
therefore of great interest. Such estimation is dependent on
several factors, as the state of charge of the battery, the
temperature and the cooling conditions of the motor and the
power electronics at that particular moment. This article
proposes a method for evaluating the overloading potential of
the electric drive dynamically at any time, based on a
previously developed thermal model. Alternative modelling
techniques are discussed and the resulting thermal model is
validated against experimental measurements.
hybrid driveline it is crucial to optimize the power
distribution between the electric drive and the internal
combustion engine. An accurate estimation of how much
electric power can be delivered at any instant of time is
therefore of great interest. Such estimation is dependent on
several factors, as the state of charge of the battery, the
temperature and the cooling conditions of the motor and the
power electronics at that particular moment. This article
proposes a method for evaluating the overloading potential of
the electric drive dynamically at any time, based on a
previously developed thermal model. Alternative modelling
techniques are discussed and the resulting thermal model is
validated against experimental measurements.
Department/s
Publishing year
2011
Language
English
Pages
13-18
Publication/Series
2011 IEEE International Electric Machines&Drives Conference (IEMDC)
Document type
Conference paper
Topic
- Other Electrical Engineering, Electronic Engineering, Information Engineering
Conference name
International Electric Machines and Drives
Conference date
2011-05-15 - 2011-05-18
Conference place
Niagara Falls, Ontario, Canada
Status
Published
ISBN/ISSN/Other
- ISBN: 978-1-4577-0059-0