" shielding" . "Electronic Reliability (EMR) of Electronic Systems for Electro Mobility" . . . . . . "wireless sensor; electromagnetic reliability; FEV-Fully Electric Vehicle; antenne; control electronic; shielding; data convertor"@en . "wireless sensor" . . . . . "Electronic Reliability (EMR) of Electronic Systems for Electro Mobility"@en . . . " antenne" . "0"^^ . " electromagnetic reliability" . "The objective of the EM4EM project is to achieve high system reliability from the perspective of noise immunity (EMR) of nano electronic components (IC - sensors - power devices) and electronic modules required for future developments in automotive and semiconductor industries. Special attention will be given to electrical propulsion systems. Synergy with other closely related industries operating also in harsh electromagnetic environments will be gained. New methodologies to reduce electromagnetic noise emission generated by power electronic components, modules and systems, and to increase vice versa the noise immunity of smart sensors systems will be developed. Aspects of Time-To-Market and cost efficiency will be taken into account. Nano-electronic systems (including the sensor technologies) and power semiconductors for Electrical Vehicles (EV) are subjects of this research project with the focus on technology development for the EMR improvements." . . "2014-03-03+01:00"^^ . "1"^^ . . "0"^^ . "1"^^ . "LF13011" . . "0"^^ . "2013-01-01+01:00"^^ . . . " FEV-Fully Electric Vehicle" . " control electronic" . "2015-02-16+01:00"^^ . . . "2015-03-31+02:00"^^ . "http://www.isvav.cz/projectDetail.do?rowId=LF13011"^^ . "The objective of the EM4EM project is to achieve high system reliability from the perspective of noise immunity (EMR) of nano electronic components (IC - sensors - power devices) and electronic modules required for future developments in automotive and semiconductor industries. Special attention will be given to electrical propulsion systems. Synergy with other closely related industries operating also in harsh electromagnetic environments will be gained. New methodologies to reduce electromagnetic noise emission generated by power electronic components, modules and systems, and to increase vice versa the noise immunity of smart sensors systems will be developed. Aspects of Time-To-Market and cost efficiency will be taken into account. Nano-electronic systems (including the sensor technologies) and power semiconductors for Electrical Vehicles (EV) are subjects of this research project with the focus on technology development for the EMR improvements."@en . .