In a groundbreaking move, a project funded by the industry is set to design an ultra-high-voltage pulse-power supply system that is based on semiconductor devices. The ambitious project aims to create a fast rise-time system, with a working prototype being a critical requirement. This venture is anticipated to make significant strides in the electronics industry, particularly in the area of power supply systems.
The project will be spearheaded by a team of leading academic and industrial experts, with the candidate expected to play a central role. The candidate’s responsibilities will extend beyond the typical realms of literature review, planning, purchasing, and prototype testing. They will also be tasked with modeling and design validation through simulation, presenting their findings at meetings and international conferences, and writing technical reports and high-quality journal publications or patents.
The candidate will also be in charge of a team of research assistants and PhD researchers, guiding them in this high-stakes project. Their expertise will be invaluable in the areas of high-frequency, high-voltage switched power electronic circuits, mathematical modeling, analysis, simulation, and experimental verification.
The project requires hands-on experience in design, fabrication, and testing of hardware circuit for high-frequency, high-voltage switched power electronic circuits. Another essential skill is proficiency in printed circuit board design, assembly, and testing. The candidate must also be adept at operating digital storage scopes, network analyzers, power quality analyzers, and data acquisition equipment.
A deep understanding of HV engineering is crucial for this role. This includes knowledge of safety precautions, insulation and grounding requirements, and standard regulations related to EMI generated by HV and EHV power sources. The candidate must also have experience in programming digital controllers and interfacing with the power circuit.
A PhD in Electrical Engineering with a specialization in Power Electronics Systems and Control is required for this role. The focus should be on high-frequency high voltage switched circuits. The candidate should also have the ability to work on research problems and write scientific papers. A high level of personal responsibility, initiative, and the ability to work in a project team are also prerequisites.
The project’s success hinges on the candidate’s proficiency in electronics, computers, and the use of various programming languages. Coding skills will be essential in programming digital controllers and interfacing with the power circuit.
This venture is a testament to the industry’s commitment to innovation and progress. It is an exciting opportunity for those in the field of electronics and power supply systems to contribute to a project that could revolutionize the industry.
For those interested in participating in this pioneering project, or if any issues arise during the online application process, the Recruitment Team is available for assistance at [email protected]. This project is not just about designing an ultra-high-voltage pulse-power supply system; it’s about shaping the future of the electronics industry.