Vue d'ensemble Statistiques salaires profession "Network Support Engineer en France"

SuperGrid Institute brings together 180 employees, of 28 different nationalities who work together within a dynamic environment in the city of Lyon. As an independent research and innovation centre, we are dedicated to developing technologies for the future power transmission system, the “supergrid”, including HVDC & MVDC technologies.As a multi-disciplinary research centre with advanced simulation capabilities & multiple test platforms, including numerous associated laboratories, SuperGrid Institute uses its comprehensive expertise to provide a wide range of services and solutions to support our customers in developing power systems, equipment, and components. We specialise in system architecture and work on ensuring network security and stability while allowing for the integration of intermittent renewable energy sources. Find out more by visiting our website: www.supergrid-institute.comGENERAL CONTEXTSiC MOSFETs have revolutionized power energy conversion above 600 V with their lower on-state resistance and higher switching frequency compared to Silicon IGBTs. Their maturity is growing strong, and manufacturers are integrating this technology ever more. Nonetheless, condition and health monitoring of these “new” devices is required to fully exploit their potential in power conversion. This research field is thus gaining momentum and is pushing both academia and industry to seek solutions for electrical parameter online measurement and remaining useful life estimation. Electrical parameter measurement is the first step towards condition & health monitoring but is a challenging task as it has to be carried out during the operation of the converter in most cases. On-line measurement of SiC MOSFETs’ electrical parameters is thus the goal of this internship.Benefits : * Remboursement des transports à 50%OBJECTIVES / MISSIONSThe goal of the internship is to perform the accurate measurement of electrical and thermals SiC MOSFETs parameters and build an electrothermal modelling platform. The second, but main goal is to implement on-line electrical parameter monitoring system on SiC MOSFETs.TASKS: * Literature review * Electro thermal characterisation of SiC MOSFET (650 V to 3.3 kV) * Electrothermal modeling of SiC MOSFETs on LTspice * Prototyping measurement * Drain Source voltage * On-state resistance * Junction temperatureCANDIDATE PROFILEMaster or engineering school student in the last year of his/her studies. The student must have a good knowledge in electrical engineering (power electronics and power systems). An experience with the LTspice software, Matlab/Simulink, and Python is appreciated and hands on experience with power electronics tests. Good proficiency in English is required. This internship can lead to a thesis or fixed position opportunity for a talented candidate.WHAT WE HAVE TO OFFER * You will be joining an institute for energy transition, a promising and stimulating field of activity, * A young, dynamic working environment, * Diverse, international teams (+25 nationalities),Contribution to meal expenses (company restaurant) * Sports club within the company (on-site yoga, football, running, etc.)Use of self-service company bicycles VILLEURBANNE (LYON) 6 months, beginning september 2024

SuperGrid Institute brings together 180 employees, of 28 different nationalities who work together within a dynamic environment in the city of Lyon. As an independent research and innovation centre, we are dedicated to developing technologies for the future power transmission system, the “supergrid”, including HVDC & MVDC technologies.As a multi-disciplinary research centre with advanced simulation capabilities & multiple test platforms, including numerous associated laboratories, SuperGrid Institute uses its comprehensive expertise to provide a wide range of services and solutions to support our customers in developing power systems, equipment, and components. We specialise in system architecture and work on ensuring network security and stability while allowing for the integration of intermittent renewable energy sources. Find out more by visiting our website: www.supergrid-institute.comGENERAL CONTEXTThe medium voltage direct current (MVDC) technology is emerging in power distribution and collection after the high voltage direct current (HVDC) has been demonstrated and exploited as the economically viable solution for long-distance transmission of bulk power. The MVDC technology has been implemented in some pilot projects in China and Europe. The researchers evaluate the interest of MVDC in solar and wind applications. The benefits of MVDC technology can be analysed in terms of energy efficiency, power dispatch, power capacity, power supply range, raw material consumption, CO2 emissions, resilience of distribution network or ancillary services to the AC grid [1].The massive integration of Renewable Energy Sources (RES) in the future will most probably require the development of MVDC networks at different scales of extent. One of the building blocks of such networks are DC DC converters required adapt to the different levels. To achieve the high voltage, series connection of SiC MOSFETs is necessary[2], but this comes at the cost of increased common mode currents, fast degradation of solid insulation of Medium Frequency Transformers and limited to a certain number of devices. At SuperGrid Institute we would like to test a modular approach based on MMC converter, but for high frequency and Quasi Two Level modulation. This would allow for a better control of the dV/dt and unlock the voltage/power limitation of direct seriec connection.Prototyping this kind of converters is the first step towards the evaluation of this technology and will pave the way for design of SiC MMC converters for MVDC applications.Benefits : * Remboursement des transports à 50%OBJECTIVES / MISSIONSThe goal of the internship is prototyping a submodule for a 10 kV - 250 kW MMC converter for Quasi Two Level Modulation based on SiC MOSFET (1.7 kV or 3.3 kV) and implement it in our test platforms. The control will be managed within the existing team. TASKS: * Literature review * LTspice Simulation of MMC submodule * Converting the existing gate driver design on Altium * Prototyping of the submodule * Sizing of the Capacitor * Consideration of Insulation constraints * Instrumentation (voltage and current measurement) * Test and validation of the ConverterCANDIDATE PROFILEMaster or engineering school student in the last year of his/her studies. The student must have a good knowledge in electrical engineering (power electronics and power systems). An experience with the Altium, LTspice software, Matlab/Simulink, Python is appreciated and hands on experience with power electronics tests. Good proficiency in English is required. This internship can lead to a thesis or fixed position opportunity for a talented candidate.WHAT WE HAVE TO OFFER: * You will be joining an institute for energy transition, a promising and stimulating field of activity, * A young, dynamic working environment, * Diverse, international teams (+25 nationalities), * Contribution to meal expenses (company restaurant) * Sports club within the company (on-site yoga, football, running, etc.) * Use of self-service company bicycles VILLEURBANNE (LYON) 6 months, beginning of september 2024

SuperGrid Institute brings together 180 employees, of 28 different nationalities who work together within a dynamic environment in the city of Lyon. As an independent research and innovation centre, we are dedicated to developing technologies for the future power transmission system, the “supergrid”, including HVDC & MVDC technologies.As a multi-disciplinary research centre with advanced simulation capabilities & multiple test platforms, including numerous associated laboratories, SuperGrid Institute uses its comprehensive expertise to provide a wide range of services and solutions to support our customers in developing power systems, equipment, and components. We specialise in system architecture and work on ensuring network security and stability while allowing for the integration of intermittent renewable energy sources. Find out more by visiting our website: www.supergrid-institute.comGENERAL CONTEXTThe medium voltage direct current (MVDC) technology is emerging in power distribution and collection after the high voltage direct current (HVDC) has been demonstrated and exploited as the economically viable solution for long-distance transmission of bulk power. The MVDC technology has been implemented in some pilot projects in China and Europe. The researchers evaluate the interest of MVDC in solar and wind applications. The benefits of MVDC technology can be analysed in terms of energy efficiency, power dispatch, power capacity, power supply range, raw material consumption, CO2 emissions, resilience of distribution network or ancillary services to the AC grid [1].The massive integration of Renewable Energy Sources (RES) in the future will most probably require the development of MVDC networks at different scales of extent. One of the building blocks of such networks are DC DC converters required adapt to the different levels. To achieve the high voltage, series connection of SiC MOSFETs is necessary[2], but this comes at the cost of increased common mode currents and fast degradation of solid insulation of Medium Frequency Transformers. An emerging strategy is to employ Flying Capacitor Converters in a Quasi Two Level modulation. Simulation level studies have proven this converter [3], but not much is available on litterature on practical réalisations.SuperGrid institute has lounched a phd thesis on this subject and the intern will be helping with the prototyping. Getting practical experience on this kind of converter is mandatory to better understand their performance and limitations. Benefits : * Remboursement des transports à 50%OBJECTIVES / MISSIONSThe goal of the internship is to prototype a 10 kV - 250 kW Flying Capacitor Converter for Quasi Two Level Modulation based SiC MOSFET (1.7 kV or 3.3 kV) and implement it in our test platforms. The intern must prototype the PCB for power MOSFETs and for the gate drivers on Altium. TASKS * Literature review * LTspice Simulation of Flying Capacitor Converter * Convert the design of the existing gate driver on Altium * Prototyping the converter * Sizing of Flying Capacitors * Consideration of Insulation constraints * Instrumentation (voltage and current measurement) * Test and validation of the ConverterCANDIDATE PROFILEMaster or engineering school student in the last year of his/her studies. The student must have a good knowledge in electrical engineering (power electronics and power systems). An experience with the Altium, LTspice, Matlab/Simulink, Python is appreciated and hands on experience with power electronics tests. Good proficiency in English is required. This internship can lead to a thesis or fixed position opportunity for a talented candidate.WHAT WE HAVE TO OFFER: * You will be joining an institute for energy transition, a promising and stimulating field of activity, * A young, dynamic working environment, * Diverse, international teams (+25 nationalities), * Contribution to meal expenses (company restaurant) * Sports club within the company (on-site yoga, football, running, etc.) * Use of self-service company bicycles VILLEURBANNE (LYON) 6 months, beginning of september 2024

Description du poste Description de l'emploi :Within the ATR 's Engineering Directorate, the applicant will join the Processes Methods and Tools team.She/he will be part of the team in charge of the governance of Operational Processes in terms of Methods and Tools. In relation with the technical Center of Competences and transversals departments of the ATR Engineering, the team's missions consists in maintaining and developing the certificates (ISO14001, EN9100) and the Design Organization Approval (Part 21) by developing and continuously enhance and support the operational processes of the Engineering in terms of methods and dedicated tools.Among others, the candidate is in charge of the following activities:- Participate to the System engineering development process- Map of the existing operational processes (As-is)- Create links between processes, complete and structure process mapping (to-be)- Coordinate and improve/stabilize documented transverse activities such as DDP/EDS, CVE matrix, trigger MOD case of uses, Partner QRM / Quality gates, Equipment specification, storage/archiving rules, electronic signatures, SDN & CMMm documentation creation and revision- Include new processes such as additive technology, manufacturing processes, project development plan, system development process, Type Design data creation processesYour profile:-10 year experience in aeronautic engineering activities with a first experience on processes and methods activities.- Quality and Environmental certificate knowledge and clear Design Organization Approval understanding.- Communication, proactive engagement and team spirit are essentials on the basic motivation of the candidate.- Good command of English is required due to the numerous contacts with our partners and providersPLEASE NOTE THIS IS A "CDI DE CHANTIER"Cet emploi exige une connaissance des risques de conformité potentiels et un engagement à agir avec intégrité, comme base de la réussite, de la réputation et de la croissance durable de la société.Unité légale :Avions de Transport Regional (ATR) GIEType de contrat :CDI-----Classe Emploi (France): Classe G13Niveau d'expérience :Expérimenté(e)Famille d'emplois :Direction En soumettant votre CV ou votre candidature, vous autorisez Airbus à utiliser et stocker des informations vous concernant à des fins de suivi de votre candidature ou de futurs emplois. Ces informations ne seront utilisées que par Airbus.Airbus s'engage à assurer la diversité de sa main-d'œuvre et à créer un environnement de travail inclusif. Nous accueillons toutes les candidatures, quels que soient le milieu social et culturel, l'âge, le genre, l'invalidité, l'orientation sexuelle ou les croyances religieuses des postulants.Airbus est depuis toujours attaché à l'égalité des chances pour tous. En tant que tel, nous ne demanderons jamais aucun type d'avance de frais dans le cadre d'un processus de recrutement. Toute usurpation d'identité d'Airbus à cette fin doit être signalée à [email protected] Airbus, nous vous aidons à travailler, à vous connecter et à collaborer plus facilement et de manière plus flexible. Dans la mesure du possible, nous favorisons les modalités de travail flexibles pour stimuler la pensée innovante.

Eiffage Route contribue à l’amélioration du réseau français, des voies communales aux tracés autoroutiers, qu’il s’agisse de conception, de construction ou d’entretien. Experte en aménagement urbain, Eiffage Route participe également à la réalisation de projets portuaires, aéroportuaires, industriels et commerciaux.MISSIONS- Manage teams- Present the building site, its challenges, risks and the construction works to be completed by all their teams- Set objectives for their employees - Support teams’ professionalization and upskilling and manage HR processes within the scope of their responsibility- Encourage professional best practices and govern improper conduct Building site preparation- Study the contract documentation (general conditions of contract, technical documentation), price studies and the strategic choices made by the agency manager (transfer meeting)- Perform administrative procedures within the lead times (road network authorization, DICT – declaration of the intention to begin work, etc.)- Check the building site’s actual conditions (plot, additional studies, construction methods, environment, surveys, core sampling, etc.), define the building site installation and access plan, and establish the Health and Safety Protection/Prevention (PPSPP) and Quality Assurance plans- Define the resources – human (teams, skill sets and availability), material, equipment and financial – required to properly complete the construction works- Prepare and present the operation’s estimated budget for approval by superior(s)- Establish the overall and provisional schedule and determine the return on investment (ROI) (ratios)- Set up consultations, analyze offers, negotiate conditions and draw up contracts together with the Purchasing Department - Place orders with sub-contractors and suppliers, together with the Purchasing Department- Initiate certification filing requests from sub-contractors- Ensure the full completion of construction studies (plans, design briefs, etc.) as well as the full optimization of these studies Monitoring of the building site’s construction- Organize, schedule and manage the construction works, and ensure proper contractual management- Participate in building site meetings and chair coordination meetings with sub-contractors/suppliers- Ensure that guidelines, standards and rules are applied, specifically concerning health and safety- Perform technical controls during construction (materials, production of materials on the building site, compliance with the plan, etc.) and decide on any corrections to be made- Ensure budget monitoring of construction works, analyze deviations from the estimated budget and optimize the results (income statement, earnings and cash position)- Ensure the appropriate formalities in case of any amendments to, or extension of, the construction works- Set the Site Supervisor’s objectives to guarantee delivery of the construction works in accordance with client practices (compliance with costs, quality and lead times)- Present construction works progress and issue monthly invoicing, establish requests for advances with the client; focus on their building site’s cash flow (invoices to be issued (“FAE”) and Receivables) Quality, Prevention, Security and Environment- Ensure full application of guidelines, procedures and rules to complete the construction works as well as overseeing individual and collective security on the building site- Monitor the quality of the completed construction works within planned lead times- Manage environmental constraints and ensure the full adoption of the corresponding measures- Organize the planned security prevention measures Delivery of the constructions- Request the acceptance of the works and obtain the contractual documentation (final general statement, acceptance statement, certificate of competency, etc.) in collaboration with the business manager- Resolve deviations and provide feedback- Establish and initiate invoicing, verifying sub-contractor statements and following up on collection together with the Finance and Accounting Manager (RAF) Where required, file a claim and submit it for approval to their line manager Business relations and business development- Ensure regular contact with known clients- Identify potential new opportunities and work on them with the relevant in-house departments- Manage changes to the initial workload and optimize the financial result SPECIFIC ACTIVITIES METAL CONSTRUCTION WORKS SUPERVISOROversee the mission of the Project Engineering Operations Manager (ROM), by managing the assembly and processes NUCLEAR WORKS SUPERVISORThe Nuclear Works Supervisor may operate in and outside of restricted areas. Their specific tasks are as follows:- Have all the nuclear training required to work on the relevant nuclear site (reactors, fuel cycle, research center, uranium chemistry, etc.)- Check the credentials of their assigned workforce- Ensure that the construction works completion file and all related documentation are available on the building site as per the latest applicable index- Ensure that the fieldwork monitoring files (DSI) are completed and signed by the authorized persons and that no work phase can be undertaken if the previous stop point is not signed- Ensure teams’ radiation safety- Ensure teams’ management of fieldwork reliability (PFI)- Monitor the operational dosimetry of their teams in restricted areas- Initiate and manage feedback processes on completed building sites, and spearhead continuous improvement processes with their teams DEMOLITION/DECONTAMINATION WORKS SUPERVISOR- Receive waste tracking slips- Update global waste records- Complete sub-section 3 Technical supervision training- The following points apply to the Asbestos Works Supervisor or Demolition and Asbestos Works Supervisor- Understand the characteristics and properties of asbestos and its effects on health- Understand the maximum fieldwork period in a confined area based on set instructions- Understand procedures for containment and collective protection- Understand the performance limitations of Personal Protective Equipment (PPE)- Understand exposure and dust levels for the applied processes (asbestos, silica, etc.)- Understand aeraulic performance calculations (asbestos)- Establish an asbestos sampling strategy and send to the Occupational Physician- Program the analyses according to the defined strategy and construction work schedules.- Monitor the completion of the analyses on-site and perform quality assurance on analytical reports- Notify the Technical Manager in the event of accidental exposure or a breach in regulations JOB REQUIREMENTSSignificant experience as a Site Supervisor or Works Engineer AuthorizationsAuthorizations may be required based on the position heldH0-B0 electrics authorization JOB ENVIRONMENTReporting line: Site Manager, Works Director, Operational Manager, Sector Manager Internal relations: Engineering Consultants, Support Department, Site Supervisors, Team Leaders, Journeymen, etc. External relations: sub-contractors and co-contractors, clients, Design Consultants – Engineering Consultants, suppliers, local residents, work inspectorate, CARSAT, OPPBTP, etc.Vous êtes issu(e) d’une Ecole d’Ingénieur en dernière année d’études ou d’une formation Bac+5 avec une spécialisation en génie civil ou travaux publics. Vous souhaitez vous former à un métier d'ingénieur du Bâtiment et des Travaux Publics.Vos stages et expériences professionnelles vous ont permis de côtoyer les entreprises de Travaux Publics.Dynamique, organisé(e) et rigoureux(se), votre adaptabilité vous permettra de mener à bien vos missions et de vous familiariser avec notre activité.