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project info
Start date: 30 December 2016
End date: 29 December 2019
funding
Fund: European Regional Development Fund (ERDF)
Total budget: 402 930,00 €
EU contribution: 219 395,38 € (54,45%)
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programme
Programming period: 2014-2021
Programme: Multi-regional Spain - ERDF
Managing authority: Subdirección General de Gestión del FEDER, de la Dirección General de Fondos Europeos del Ministerio de Hacienda.
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theme
Research and innovation
intervention field
Research and innovation activities in public research centres and centres of competence including networking
beneficiary
University of Zaragoza

HIGH POWER DENSITY MODULAR ELECTRONIC SYSTEMS FOR EFFICIENT ENERGY TRANSFER THROUGH ELECTROMAGNETIC FIELDS

USING THE RESULTS OF THE TWO PREVIOUS PROJECTS (2010 AND 2013), THIS PROJECT PROPOSES THE RESEARCH AND DEVELOPMENT OF HIGH POWER DENSITY MODULAR SYSTEMS, DIGITALLY CONTROLLED, TO EFFICIENTLY TRANSMIT ELECTROMAGNETIC ENERGY, TAKING ADVANTAGE OF PHYSICAL EFFECTS OF NEARBY HIGH INTENSITY ELECTRIC AND MAGNETIC FIELDS: OHMICO HEATING, BY MAGNETIC AND ELECTRIC INDUCTION AND PULSATING ELECTRIC FIELDS (ELECTROPORATION). All these EFFECTS HAVE BEEN DESCRIED BY SEPARATED FOR USE AND ELECTROCHRURGIC APPLICATIONS DOING THE PROJECT RESULTS are ordained, and will be used from silled or compounded FORMATIONS to improve the expectations and versatility reached._x000D_ THE TAREA INVESTIGING IS CENTRATED in the first place in expanding the scientific and technical knowledge of the PROBLEM, by means of an advanced electromagnetic model and an EXPERIMENTAL CHARACTERISATION that perpetuates the development of new structures for the effective transition of electrical ENERGY. Innovative PROPOSES OF INDUCTIVAL, CAPACITIVE AND HIBRID SYSTEMS._x000D_ TAKING IN ACCOUNT THE PROPOSAL STRUCTURES, Analysis and Design of New Electronic ETAPAS OF ADAPTED POTENCE AND MODULATED STRATEGYS that enable them to make their ENERGETIC FUNCTION AND EFICIENCE FOR DIFFERENT CARGAGES. Principally, ELECTRONIC TOPOLOGIES will be considered resonant MODULAR MULTIPLE MULTIPLES MODULARS, USING SEMICONDITIVE SYSTEMS TANT OF SILICIOUS AS GAP ANCHO._x000D_ DIGITAL CONTROL SYSTEMS will be designed to use ALGORITMS of IDENTIFICATION OF CARGAS, and include Precision Measurement of Salida POTENCE. VERSATILE SOPC IMPLEMENTATIONS BASED ON FPGA WILL BE PROPOSED. It is necessary that the solutions adopted for the electronic systems designed be COMPACT AND FACILMENT INTEGRABLE._x000D_ IN FINANCIVE, the present project will evaluate the scientific-TECNICAL VIABILITY OF ENERGY TRANSFER SYSTEMS ADVANCED WITH IMPORTANT IMPORTANTS: HIGH ENERGETIC EFFICIENCY, UNIFORMITY OF EFFECT, FLEXIBILITY, CONTROLLABILITY AND ADAPTABILITY TO DIFFERENT TYPES OF LOADS; LEADING TO MORE COMPACT SYSTEMS. Constitutes an EVOLUTION OF RESEARCH OF PROJECTS PREVIOUSLY CONCEDED, AND RESULTS are expected to be used later in the development of RELEVANT INNOVATION FUTURES._x000D_ AS REFERENCE APPLICATIONS WITH PRINCIPLE ELECTRODOMESTICAL SYSTEMS O ELECTRICAL CONSUMPTION SYSTEMS AND electro-surgical biomedical systems, WHERE OUR RESEARCH GROUP SPORT PREVIEW EXPERIENCE RELEVANT.

Flag of Spain  Zaragoza Province, Spain