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- Tasks: Design and optimise magnetic components for advanced power conversion systems.
- Company: Join a leading firm in power electronics, serving automotive, aerospace, and renewable energy sectors.
- Benefits: Enjoy competitive salary, career growth, and a collaborative work environment.
- Why this job: Work on cutting-edge projects that make a real impact in high-performance technology.
- Qualifications: Degree in Electrical/Electronic Engineering; experience in magnetics design for power electronics required.
- Other info: Opportunity to collaborate with multidisciplinary teams and stay updated on the latest technologies.
The predicted salary is between 36000 - 60000 £ per year.
Job Title: Power Electronics Engineer – Magnetics Specialist
Location: Near Bristol
Industry: Power Electronics / Energy / Industrial / Automotive / Aerospace
Overview
We are seeking an experienced Power Electronics Engineer with deep expertise in the design, modelling, and development of magnetic components for advanced power conversion systems. This role will focus on the design and optimisation of transformers, inductors, and other magnetic assemblies used in high-performance DC/DC, AC/DC, and DC/AC converters.
You will work closely with multidisciplinary teams to deliver innovative, high-efficiency solutions for demanding applications in sectors such as automotive, aerospace, industrial, and renewable energy.
Key Responsibilities
- Design and develop magnetic components (transformers, inductors, chokes) for high-frequency and high-power applications.
- Perform electromagnetic, thermal, and mechanical simulations to optimise designs for efficiency, size, and manufacturability.
- Select appropriate core materials, winding techniques, and insulation systems for specific application requirements.
- Collaborate with power electronics engineers to integrate magnetics into converter topologies (LLC, flyback, forward, full-bridge, resonant, etc.).
- Validate designs through prototyping, laboratory testing, and compliance with relevant safety and EMC standards.
- Support manufacturing partners in scaling designs from prototype to production, including cost and quality optimisation.
- Troubleshoot and resolve issues related to magnetic component performance in system-level testing.
- Maintain up-to-date knowledge of new materials, processes, and design techniques in magnetics and power electronics.
Essential Skills & Experience
- Degree in Electrical/Electronic Engineering or a related discipline.
- Proven experience in the design and optimisation of magnetics for power electronics applications.
- Proficiency with simulation tools such as ANSYS Maxwell, COMSOL, or equivalent.
- Strong understanding of core material properties, loss modelling, and winding layout optimisation.
- Knowledge of high-frequency switching devices (SiC, GaN) and their impact on magnetic design.
- Familiarity with thermal management in compact magnetic designs.
- Ability to interpret schematics and work closely with PCB and mechanical design teams.
Desirable Skills
- Experience with planar magnetics design for high-density converters.
- Knowledge of industry standards (UL, IEC, DO-160, MIL-STD, etc.).
- Hands-on experience in winding, assembling, and testing magnetic prototypes.
- Familiarity with digital control systems and their influence on magnetics performance.
What We Offer
- Opportunity to work on cutting-edge projects in high-performance power conversion.
- Collaborative and innovative working environment.
- Competitive salary and benefits package.
- Career growth within a specialised engineering team.
Locations
Power Electronics Engineer - Magnetics employer: Ampere Recruitment
Contact Detail:
Ampere Recruitment Recruiting Team
StudySmarter Expert Advice 🤫
We think this is how you could land Power Electronics Engineer - Magnetics
✨Tip Number 1
Network with professionals in the power electronics field, especially those who specialise in magnetics. Attend industry conferences or local meetups to connect with potential colleagues and learn about the latest trends and technologies.
✨Tip Number 2
Familiarise yourself with the specific simulation tools mentioned in the job description, such as ANSYS Maxwell and COMSOL. Consider taking online courses or tutorials to enhance your skills and demonstrate your proficiency during interviews.
✨Tip Number 3
Stay updated on the latest advancements in magnetic materials and design techniques. Subscribe to relevant journals or follow industry leaders on social media to gain insights that could be beneficial in discussions with our team.
✨Tip Number 4
Prepare to discuss your hands-on experience with magnetic prototypes. Be ready to share specific examples of challenges you faced and how you overcame them, as this will showcase your problem-solving skills and practical knowledge.
We think you need these skills to ace Power Electronics Engineer - Magnetics
Some tips for your application 🫡
Tailor Your CV: Make sure your CV highlights your experience in designing and optimising magnetic components for power electronics. Include specific projects or achievements that demonstrate your expertise in transformers, inductors, and other relevant assemblies.
Craft a Compelling Cover Letter: Write a cover letter that showcases your passion for power electronics and your understanding of the role. Mention your proficiency with simulation tools like ANSYS Maxwell or COMSOL, and how your skills align with the company's needs.
Highlight Relevant Experience: In your application, emphasise any hands-on experience you have with winding, assembling, and testing magnetic prototypes. Discuss your familiarity with high-frequency switching devices and thermal management techniques.
Showcase Collaboration Skills: Since the role involves working closely with multidisciplinary teams, include examples of past collaborations. Highlight how you’ve successfully integrated magnetics into converter topologies and worked with PCB and mechanical design teams.
How to prepare for a job interview at Ampere Recruitment
✨Showcase Your Technical Expertise
Be prepared to discuss your experience with designing and optimising magnetic components. Highlight specific projects where you used simulation tools like ANSYS Maxwell or COMSOL, and explain how your designs improved efficiency or performance.
✨Demonstrate Collaboration Skills
Since the role involves working closely with multidisciplinary teams, share examples of how you've successfully collaborated with power electronics engineers or other departments. Emphasise your ability to integrate magnetics into various converter topologies.
✨Stay Updated on Industry Trends
Show your passion for the field by discussing recent advancements in materials and design techniques related to magnetics and power electronics. This will demonstrate your commitment to continuous learning and innovation.
✨Prepare for Practical Problem-Solving
Expect questions that assess your troubleshooting skills. Be ready to discuss how you've resolved issues related to magnetic component performance during system-level testing, and provide specific examples of your problem-solving approach.