Integrative cae-tools for optimized development of welding power supplies with high power density

Objectif

Since the capability to adapt development schemes to new requirements and regulations decides about the future competitiveness of European industries, the objective of project CAE WPS intends to reduce costs, time to market and required design expertise by about 20% in the short term to up to 40% 50% in the medium term and to increase market share by about 50% in the medium term by use of a knowledge based CAE tool. This novel tool, which is set up in this project, assists the design engineer during the entire development process of welding power supplies (WPS) and supports the generation of improved welding and cutting products in terms of performance and reliability. The structure of the knowledge based computer aided engineering tool CAE WPS will be open and flexible, so as to include new solutions and update existing ones. Its innovative methodology will in conjunction with the use of the novel European simulator SIMPLORER include and support the following functions: a. A computer aided selection (CAS) of the best matching power supply topologies using a knowledge base. b. A computer aided DC and AC analysis (CAA) of power circuitry developed with a computer algebra system generating input for improved model libraries, yielding a tremendous speed up in simulations. c. Design of power electronic and control circuitry including magnetic components, taking care of highfrequency effects, using a computer aided design program (CAD) supported by the CAA model libraries, libraries for the selection of components and materials and circuit and system simulation using commercial simulation software comprising PSpice and SIMPLORER. d. Thermal design using approximate thermal modelling of power semiconductors and magnetic components while the total assembly is simulated by commercial thermal simulation programs. e. The availability of novel macro models for power electronic circuits (b), models for magnetic components with respect to electrical (c) and thermal behaviour (d) upgrades the SIMPLORER and simulation results f. Computer aided optimisation (CAO) of magnetic components with respect to selected cost functions which might be efficiency, weight etc. by applying modern numerical optimisation algorithms. g. documentation of the development process. This project aims via enlarged adaptability to new applications, resulting from increasingly demanded smaller and lighter WPSs, at addressing a broader spectrum of customers. Technical measures for the generation of such target WPSs are: - Using higher switching frequencies with its volume shrinking effect on magnetic components and filters and achieving higher efficiency through application of resonant transition switching (RTS) techniques, - applying planar, low profile magnetic devices and other magnetic cores suitable for high power density and characterised by a good thermal behaviour, - applying modern tools for modelling and simulation of the thermal behaviour of total WPSs resulting in designs which fully exploit the selected devices, materials and geometry and assuring increased lifetime. Upgrading of welding quality (ISO 9000) as well as compliance with new end future regulations with respect to electric mains pollution and electromagnetic compatibility (EMC) is obtained by: - Using modern, powerful controllers, whose structures and parameters are selected and adapted in accordance to the requirements of the welding process, the thickness of the material to be welded, - feeding the WPS converter through a power factor correction switch mode rectifier (PFC SMR), which allows to draw maximum power with minimum pollution from l phase or 3 phase mains while ensuring compliance with low frequency emission standards (IEC 1000 3 2/4) and minimising input filters means, - including EMC aspects already at the pre design stage, both concerning emission (radiated and conducted) and immunity so as to comply with CISPR and IEC standards on EMC.

Champ scientifique (EuroSciVoc)

CORDIS classe les projets avec EuroSciVoc, une taxonomie multilingue des domaines scientifiques, grâce à un processus semi-automatique basé sur des techniques TLN. Voir: https://op.europa.eu/fr/web/eu-vocabularies/euroscivoc.

• sciences naturelles mathématiques mathématiques pures topologie
• sciences naturelles mathématiques mathématiques pures algèbre
• sciences naturelles sciences de la Terre et sciences connexes de l'environnement sciences de l'environnement pollution
• sciences naturelles sciences physiques électromagnétisme et électronique dispositif à semiconducteur
• sciences naturelles informatique et science de l'information logiciel logiciel d’application logiciel de simulation

Programme(s)

Programmes de financement pluriannuels qui définissent les priorités de l’UE en matière de recherche et d’innovation.

• FP4-BRITE/EURAM 3 - Specific research and technological development programme in the field of industrial and materials technologies, 1994-1998

Thème(s)

Les appels à propositions sont divisés en thèmes. Un thème définit un sujet ou un domaine spécifique dans le cadre duquel les candidats peuvent soumettre des propositions. La description d’un thème comprend sa portée spécifique et l’impact attendu du projet financé.

• 0202 - New methodologies for product design and manufacture

Appel à propositions

Procédure par laquelle les candidats sont invités à soumettre des propositions de projet en vue de bénéficier d’un financement de l’UE.

Régime de financement

Régime de financement (ou «type d’action») à l’intérieur d’un programme présentant des caractéristiques communes. Le régime de financement précise le champ d’application de ce qui est financé, le taux de remboursement, les critères d’évaluation spécifiques pour bénéficier du financement et les formes simplifiées de couverture des coûts, telles que les montants forfaitaires.

CRS - Cooperative research contracts

Coordinateur

Participants (10)