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For Companies At a Glance
- Tasks: Design and model power electronics systems for Marine, Aerospace, and Defence applications.
- Company: A dynamic company offering the perks of a small business with multinational security.
- Benefits: Enjoy hybrid working options and a supportive team atmosphere.
- Why this job: Join a collaborative environment focused on innovation and continuous improvement in power electronics.
- Qualifications: Bachelor's or Master's in Electrical Engineering with experience in power electronics design and modelling.
- Other info: Experience in Defence or Aerospace is a plus; stay updated with the latest technology trends.
The predicted salary is between 36000 - 60000 £ per year.
We are seeking a Power Systems Engineer with a strong focus on the design and modeling of power electronics systems. The Power Systems Engineer will be involved in the design and development of advanced power electronic circuits and systems, utilizing tools such as MATLAB, Simulink, and LTSpice for system modelling, analysis, and simulation. You will play a crucial role in developing solutions for Marine, Aerospace, and Defence applications, including motor drives, inverters, converters, and power management systems.
Key responsibilities
- Power Electronics Design
- Design and develop power electronic circuits, including DC-DC converters, AC-DC rectifiers, inverters, and motor drives.
- Apply industry best practices to design high-efficiency, compact, and reliable power systems, ensuring they meet performance, safety, and cost targets.
- Perform component selection for power electronic circuits, balancing technical and commercial constraints.
- Modelling & Simulation
- Use MATLAB, Simulink, and LTspice to model and simulate power electronic systems and validate their performance.
- Create system-level simulations to predict behaviour under various operational conditions, including transient and steady-state performance.
- Develop digital control models for power electronics systems, focusing on feedback loops, stability, and performance optimization.
- Design Verification & Validation
- Develop and execute design verification plans to ensure that systems meet design specifications.
- Collaborate with test engineers to validate design performance through hardware testing, comparing results with simulation models and making necessary design adjustments.
- Analyse test data and refine models or designs to improve overall system performance.
- System Integration
- Work closely with multidisciplinary teams to ensure the successful integration of power electronics into larger systems, such as motor drives, pumps, or energy management systems.
- Ensure seamless integration of control algorithms with power electronics hardware, optimizing system efficiency and stability.
- Design Documentation
- Prepare and maintain detailed design documentation, including circuit diagrams, simulation results, and technical reports.
- Develop specification sheets, design justifications, and user manuals for internal and customer use.
- Continuous Improvement
- Stay up to date with the latest developments in power electronics, semiconductor devices, and modelling tools, and apply these to improve designs.
- Identify opportunities for performance improvements and cost reductions in existing designs by applying the latest technology trends.
Qualifications / Skills required
- Bachelor's or Master's degree in Electrical Engineering, Power Electronics, or a related field with a focus on power electronics design and modelling.
- Demonstrated experience in the design and modelling of power electronic systems such as inverters, converters, or motor drives.
- Strong background in system-level design and circuit analysis.
- Proven ability to work with MATLAB, Simulink, and LTSpice for modelling and simulation of power electronics circuits.
- Expertise in power electronics design, with a focus on high-efficiency power converters and control systems.
- Strong analytical skills in circuit analysis and power device selection.
- Knowledge of control algorithms for power electronics systems, including digital control.
- Familiarity with semiconductor devices (e.g., MOSFETs, IGBTs) and their application in power electronics design.
Desirable:
- Experience in the Defence / Aerospace or safety regulated environment would be advantageous.
- Experience in the Naval / Maritime domain would be advantageous.
- Experience in thermal management and EMC considerations for power electronics designs.
- Familiarity with magnetic components design, such as inductors and transformers, used in power systems.
Power Systems Engineer - Staffordshire employer: Defence
Contact Detail:
Defence Recruiting Team
StudySmarter Expert Advice 🤫
We think this is how you could land Power Systems Engineer - Staffordshire
✨Tip Number 1
Familiarise yourself with the latest trends in power electronics and modelling tools. This will not only help you during interviews but also show your genuine interest in the field, making you a more attractive candidate.
✨Tip Number 2
Network with professionals in the aerospace, marine, and defence sectors. Attend industry events or join relevant online forums to connect with potential colleagues and learn about the latest challenges and innovations in power systems engineering.
✨Tip Number 3
Prepare to discuss specific projects where you've successfully designed or modelled power electronic systems. Be ready to explain your thought process, the tools you used, and how you overcame any challenges, as this will demonstrate your hands-on experience.
✨Tip Number 4
Research StudySmarter's values and recent projects. Tailoring your conversation to align with our mission and showcasing how your skills can contribute to our goals will make a strong impression during the interview process.
We think you need these skills to ace Power Systems Engineer - Staffordshire
Some tips for your application 🫡
Tailor Your CV: Make sure your CV highlights relevant experience in power electronics design and modelling. Emphasise your proficiency with tools like MATLAB, Simulink, and LTSpice, as well as any specific projects related to inverters, converters, or motor drives.
Craft a Compelling Cover Letter: Write a cover letter that showcases your passion for power systems engineering. Mention how your skills align with the job requirements and express your enthusiasm for working in sectors like Marine, Aerospace, and Defence.
Highlight Relevant Projects: In your application, include specific examples of projects where you designed or modelled power electronic systems. Discuss the challenges you faced and how you overcame them, particularly focusing on performance optimisation and system integration.
Showcase Continuous Learning: Mention any recent courses, certifications, or workshops you've attended related to power electronics or modelling tools. This demonstrates your commitment to staying updated with industry trends and improving your skills.
How to prepare for a job interview at Defence
✨Showcase Your Technical Skills
Be prepared to discuss your experience with MATLAB, Simulink, and LTSpice in detail. Bring examples of past projects where you designed or modelled power electronic systems, highlighting your problem-solving skills and technical expertise.
✨Understand the Industry Applications
Familiarise yourself with the specific applications of power electronics in Marine, Aerospace, and Defence sectors. Be ready to discuss how your skills can contribute to these areas, particularly in designing motor drives and inverters.
✨Demonstrate Team Collaboration
Since the role involves working closely with multidisciplinary teams, prepare to share examples of how you've successfully collaborated in the past. Highlight your communication skills and ability to integrate feedback into your designs.
✨Stay Updated on Trends
Research the latest developments in power electronics and semiconductor devices. Being knowledgeable about current trends will show your commitment to continuous improvement and innovation in your designs.
