The Challenge Designing a 40kV or 60kV system is one thing. Designing a 40kV or 60kV system that is highly accurate, extremely stable, low-noise, and operates at very low power levels is something entirely different. You will be part of a specialized engineering team developing next-generation high-voltage solutions for some of the world’s most advanced high-tech systems. What You’ll Do • Design, develop and integrate high-voltage electronic systems for precision equipment. • Develop ultra-stable high-voltage sources with a focus on accuracy, repeatability and low power consumption. • Design high-voltage PCBs and complete electronic subsystems. • Perform circuit simulation and analysis using SPICE-based tools. • Build, test and validate prototypes in dedicated high-voltage laboratory environments. • Address critical aspects such as insulation reliability, partial discharge, E-field behaviour, thermal management and safety. • Work closely with mechanical, system, manufacturing and test engineers. • Mentor junior and medior engineers and contribute to the growth of the team’s technical expertise. Why This Role Is Different This position goes far beyond PCB design. You will be involved in the complete high-voltage ecosystem: • Precision high-voltage electronics • Insulation design • Potting technologies (epoxy, silicone and engineered plastics) • Mechanical integration • Reliability engineering • High-voltage testing and validation • System-level architecture You’ll work in a dedicated high-voltage environment where systems ranging from tens of volts up to 100,000 volts are developed, tested and validated. What We’re Looking For • MSc or PhD in Electrical Engineering, Electronics or a related field. • 7+ years of experience in hardware development. • Proven experience designing high-voltage systems. • Strong understanding of high voltage, low power and high precision electronics. • Experience with SPICE-based simulation tools. • Knowledge of IEC 61010 and/or IEC 62368. • Understanding of insulation systems, partial discharge effects and long-term reliability. • Strong analytical and problem-solving skills. • Hands-on experience building, measuring and validating prototypes. • Excellent communication skills and the ability to collaborate across multidisciplinary teams.
