![]() EMC numerical simulation (Tools / Practice).EMC testing (Test procedures / Test instrumentation / Practice of testing).Sources of electromagnetic disturbances and electromagnetic phenomena.Power electronics / Electrotechnics / Railways (Rolling Stock, Traction Equipment, Signalling, Communication equipment).2 or 3 years’ experience expected in the EMC domain.Engineering School with specialization in EMC if possible. ![]() To propose and to carry out EMC R&D actions.To participate to the definition/development/improvement of guidelines, process, design rules, reference solutions, return of experiences, design review checklists, templates of project documents, test specifications, simulation tools, test instrumentation.To solve EMC problems encountered on projects.To constitute at the end of projects the EMC Compliance Files.To perform the EMC tests on test bench and/or on site and to provide the associated test reports.To verify manufacturing of products (verification of the application of manufacturing rules on prototype or 1st equipment).To verify the EMC test specifications and reports from subsystems suppliers.To prepare the EMC test specifications (Lab and/or Field Test Plans).To verify the design of products (verification of the general architecture, of the layout of subsystems and electrical interfaces, of HV/MV/LV cabling).To write within the framework of projects the EMC Transverse Requirements Specifications (identification of EMC requirements and allocation to sub-systems) and the EMC Control Plans (from the EMC requirements, definition of EMC activities, deliverables, design requirements and EMC tests).To prepare during tenders the clause-by-clause of customer Specifications and the associated cost estimates.To enforce the EMC design and manufacturing rules.Visit our GTPE EU GDPR page for more information. The following data elements, if in the Georgia Tech Student Systems, are considered sensitive information and are only available to Georgia Tech employees with a business need-to-know:Īt any time, you can remove your consent to marketing emails as well as request to delete your personal data. Learner information is used only as described in our Privacy Policy. GTPE data is not sold or provided to external entities. This data is not published in Georgia Tech’s online directory system and therefore is not currently available to the general public. The following data elements are considered directory information and are collected from each participant as part of the registration and profile setup process: Participants in GTPE courses are required to complete an online profile that meets the requirements of Georgia Tech Research Security. Information collected is maintained in the Georgia Tech Student System. Characteristics of high-power radio frequency weapons.Basic grounding, bonding, filtering, limiting, and shielding techniques.Emissions and susceptibility problems elimination.EM propagation loss including the effects of diffraction, reflection, and scattering.Radiated emissions from CM and DM currents.Full-wave and asymptotic techniques for EMI problems.Simple, intermediate, and complex analysis techniques for EMI problems. ![]()
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