Computationally Efficient Thermal Analysis of a Low-Speed High-Thrust Linear Electric Actuator With a Three-Dimensional Thermal Network Approach

Author

Tessarolo, Alberto ; Bruzzese, Claudio

Author_Institution

Dept. of Eng. & Archit., Univ. of Trieste, Trieste, Italy

Volume

62

Issue

3

fYear

2015

fDate

Mar-15

Firstpage

1410

Lastpage

1420

Abstract

Permanent-magnet synchronous linear motors (PMSLMs) are more and more frequently used as all-electric direct-drive actuators in those applications where a force needs to be developed along a fixed direction. In this paper, an accurate 3-D thermal model of a PMSLM is derived through a lumped-parameter network approach which exploits all the symmetries in the actuator structure to maximize the spatial density of nodes. Numerically efficient techniques are then proposed to solve the thermal network analytically. Some experimental validations are finally presented based on the thermal testing of a laboratory prototype.

Keywords

electric actuators; linear synchronous motors; lumped parameter networks; numerical analysis; permanent magnet motors; thermal analysis; 3D thermal model; PMSLMs; actuator structure; all-electric direct-drive actuators; computationally efficient thermal analysis; low-speed high-thrust linear electric actuator; lumped-parameter network approach; node spatial density; permanent-magnet synchronous linear motors; thermal testing; three-dimensional thermal network approach; Actuators; Coils; Cold plates; Heat transfer; Heating; Thermal analysis; Linear actuators; lumped-parameter model; permanent-magnet synchronous machines; thermal analysis;

fLanguage

English

Journal_Title

Industrial Electronics, IEEE Transactions on

Publisher

ieee

ISSN

0278-0046

Type

jour

DOI

10.1109/TIE.2014.2341555

Filename

6861986