Konferensartikel

Automatic modelling of Power Electronic Converter; Average model construction and Modelica model generation

Loig Allain
LMS, France

Asma Merdassi
G2ELAB, France

Laurent Gerbaud
G2ELAB, France

Seddik Bacha
G2ELAB, France

Ladda ner artikelhttp://dx.doi.org/10.3384/ecp09430092

Ingår i: Proceedings of the 7th International Modelica Conference; Como; Italy; 20-22 September 2009

Linköping Electronic Conference Proceedings 43:66, s. 576-586

Visa mer +

Publicerad: 2009-12-29

ISBN: 978-91-7393-513-5

ISSN: 1650-3686 (tryckt), 1650-3740 (online)

Abstract

Development in semi-conductor production and the control of static converters leads to an increase use of these devices in classical electrical motor control application. But; the simulation of these elements in a complete system involves longer computation time in order to take into account the impact of switching on the global system. Using average models to simulate them brings a drastic decrease of computation time. Such models do not take into account switching. They are a good compromise between complexity; computing time and acceptable accuracy at a system level. Even if the method to build these models is well identified; it still requires a lot of manipulation to get from the very structure description to the simulation code. This paper deals with a method that automates the average modeling of power electronic converter. The associated tool prototype (AMG) that has been implemented is also presented and some simulation results are shown using the Imagine.Lab AMESim[1] and its Modelica Platform.

Nyckelord

Code generation; average model; power electronics; Imagine.Lab AMESim

Referenser

[1] http://www.lmsintl.com/imagine-amesim-1-dmulti-domain-system-simulation

[2] R.D. Middlebrook; S Cuk; "A general unified approach to modelling switching converter stages"; IEEE Power Specialists Conf.; pp 18-34; 1976.

[3] P. R. K. Chetty; "Current injected equivalent circuit approach to modelling and analysis of current programmed switching DC-to-DC converters (discontinuous inductor conductionmode)"; IEEE Trans. on Industry Applications; Vol. IA-18; N°3; pp 295-299; 1982. doi: 10.1109/TIA.1982.4504077.

[4] S.R. Sanders; J. M. Noworolski; X. Z. Liu; G. Varghese; "Generalized averaging method for power conversion circuits"; IEEE Power Electron. Specialists Conf. (PESC); Records 1990; pp 333-340.

[5] S. Bacha; M. Brunello; A. Hassan; "A general large signal model for DC-DC symmetric switching converters" Electric Machines and Power Systems; Vol 22; N° 4; July 1994 ; pp 493-510. doi: 10.1080/07313569408955582.

[6] Richard M.bass and Jian Sun; "Using symbolic computation for power electronics".Computers in Power Electronics; 1998. 6th Workshop; 19-22 July 1998; pp I IV.

[7] F.Verdiere; S.Bacha; L.Gerbaud; "Automatic modelling of static converter averaged models". EPE 2003- Toulouse .pp.1-9.

[8] Piero G.Maranesi; Marco Riva. "Automatic modelling of PWM DC-DC converters". IEEE Power Electron. Letters; Vol.1;N°4; December 2003.

[9] L. Allain; L. Gerbaud; C. Van Der Schaeghe; "Capitalisation and treatment of models for the optimisation of electric drives"; in Optimisation and Inverse Problems in Electromagnetism; edited by M. Rudnicki and S. Wiak; Kluwer Academic Publishers; 2003; ISBN 1- 4020-1506-2; pp 205-212 (8 pages)

Citeringar i Crossref