Electro-mechanical suspension system considering energy consumption and vehicle manoeuvre

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Electro-mechanical suspension system considering energy consumption and vehicle manoeuvre

Electro-mechanical suspension system considering energy consumption and vehicle manoeuvre

Kawamoto, Y. / Suda, Y. / Inoue, H. / Kondo, T.

In this paper. the performance of the electro-mechanical suspension is discussed on the energy consumption, vibration isolation, and vehicle manoeuvrability. On the basis of the formulation of electro-mechanical suspension, the energy consumption and vibration isolation are discussed through the contour maps with the sprung and unsprung mass velocity feedback gain axes. From the numerical simulation and experimental result, the contour maps for the evaluation of the performance with feedback gain axes are proposed, and on these maps, the abilities of vibration isolation and manoeuvrability are evaluated. On the energy consumption, the regeneration region exists, and the velocity feedback gain of unsprung mass should be considered for regeneration and energy saving. Moreover, Gain settings for improving each vehicle performance are proposed and verified by shaker tests. From simulation and experimental results, it is demonstrated that the proposed active suspension system is able to solve the compatibility between vibration isolation and energy saving.

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Title :

Electro-mechanical suspension system considering energy consumption and vehicle manoeuvre

Contributors:

Kawamoto, Y. (author) / Suda, Y. (author) / Inoue, H. (author) / Kondo, T. (author)

Published in:

Symposium of the International Association for Vehicle System Dynamics (IAVSD), 20 ; 1053-1063

Vehicle System Dynamics ; 46 , Supplement

Publication date :

2008

Size :

11 Seiten, 15 Bilder, 2 Tabellen, 8 Quellen

ISSN :

DOI :

https://doi.org/10.1080/00423110802056263

Type of media :

Conference paper

Type of material :

Print

Language :

English

Keywords :

aktive Schalldämpfung , elektromechanische Baugruppe , Energieeinsparung , Federungselement , Laufruhe , Vibration , aktive Federung

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