The Electronic Designer works in a research and development environment, often in collaboration with test engineering, production, and quality teams. The role also involves collaborating with suppliers of electronic components, testing and certification laboratories, and post-sales support teams. The job requires a high level of attention to product quality, safety, and sustainability, as photovoltaic inverters must be efficient, safe, and durable over time. ACTIVITIES Design and develop power electronic circuits for photovoltaic inverters (DC-DC and DC-AC conversion topologies). Select and size power electronic components, such as power semiconductors (IGBT, MOSFET), diodes, capacitors, inductors, transformers, to ensure the efficiency, reliability, and safety of the inverter. Work on driving circuitry to optimize inverter performance. Develop control circuits for inverter management. Implement electronic protection systems (overvoltage protection, overload protection, overheating protection) to ensure that the inverter operates safely and reliably throughout its operational life. Design circuits for managing communication between the inverter and monitoring or network devices (e.g., communication protocols like Modbus, CAN bus, etc.) Work on optimizing the efficiency of the inverter, minimizing power losses, and improving thermal management (heat dissipation, heatsinks, temperature management). Analyze and design cooling systems for high-power electronic components to ensure long lifespan and stable performance. Develop prototypes of electronic circuits and inverters, and coordinate testing activities to validate the design and performance of the inverter in laboratory and field conditions. Collaborate with testing teams to conduct functional analyses, reliability tests, and compliance testing with international standards (IEC 62109, UL 1741). Identify and resolve any design issues through circuit reviews and debugging of prototypes. Stay updated on new technologies in the field of power electronics, power semiconductors, and photovoltaic inverter solutions. Propose and develop innovative solutions to improve the performance, energy efficiency, and lifespan of photovoltaic inverters. Collaborate with the research and development team to test and implement new technologies. TECHNICAL SKILLS MUST HAVE Basic knowledge of photovoltaic inverter topologies. Experience with the selection and sizing power electronic components (IGBT, MOSFET, diodes, capacitors, inductors). Knowledge of thermal design techniques and heat management in power electronic systems. Experience with circuit simulation (MicroCap, LTspice, MATLAB/Simulink). NICE TO HAVE Experience with electronic design software (e.g., Altium Designer, OrCAD, Eagle, PSpice, Cadence). Knowledge of digital control systems. BEHAVIORAL SKILLS MUST HAVE Collaboration: ability to work in multidisciplinary teams and communicate effectively with engineers from different areas. Organization and time management: ability to manage multiple projects simultaneously, meeting deadlines and priorities. NICE TO HAVE Analysis and problem-solving: strong attitude for diagnosing and solving complex problems during the design and testing phases. Creativity and innovation: ability to propose new and innovative solutions to optimize inverter design, improving efficiency and reliability. All candidates interested should submit their applications to the email: it-recruitingfimer.com Seniority level Not Applicable Employment type Full-time Job function Engineering and Information Technology Industries Machinery Manufacturing J-18808-Ljbffr