Title :
Force density improvements from increasing the number of airgap surfaces in synchronous linear actuators
Author :
Cavarec, P.E. ; Ben Ahmed, H. ; Multon, B.
Author_Institution :
Lab. d´´Electricite, Signaux et Robotique, ENS de Cachan, France
fDate :
1/1/2003 12:00:00 AM
Abstract :
A realistic comparison of several electromagnetic architectures for high force density actuators is presented. Four equivalent architectures are chosen and computed with a two-dimensional finite-element model. For each architecture, size is optimised to maximise the force/volume ratio. This optimisation step is performed with a fixed mechanical airgap. A thermal model is then used to calculate the current density in the coils. Results show that global-coil architecture performance increases more sharply than other architectures; a scaling effect is thereby introduced for global-coil architectures. A global-coil multi-airgap actuator is presented to illustrate the theoretical results.
Keywords :
electric actuators; finite element analysis; linear synchronous motors; machine theory; magnetic forces; optimisation; thermal analysis; 2-D finite-element model; airgap surface number; coil current density; electromagnetic architectures; equivalent architectures; force density improvements; force/volume ratio optimisation; global-coil architecture performance; global-coil multi-airgap actuator; synchronous linear actuators; thermal model;
Journal_Title :
Electric Power Applications, IEE Proceedings -
DOI :
10.1049/ip-epa:20020628
