At a Glance
- Tasks: Design and analyse electronic circuits while collaborating with experienced engineers.
- Company: Join a supportive engineering team in Greenwich focused on high-reliability power systems.
- Benefits: Gain hands-on experience, mentoring, and a collaborative work environment.
- Other info: Exciting opportunities for growth in a dynamic and inclusive team.
- Why this job: Kickstart your engineering career with real-world projects and technical development.
- Qualifications: Degree in Electrical or Electronic Engineering and a passion for learning.
The predicted salary is between 28800 - 48000 £ per year.
This is an exciting opportunity to join a collaborative engineering team based in Greenwich, working on high-reliability electronic power systems. The role is ideal for someone early in their career who enjoys understanding how electronics work in real-world systems, from circuit design and PCB layout through to testing and documentation. Previous industry experience is not required. You will be supported through mentoring, structured learning, and hands-on project exposure.
You will contribute to the design of power feeding equipment that converts low to medium voltage DC into high-voltage DC systems (up to 21kV), built for safety, reliability, and long service life.
What You’ll Be Learning & Doing
- Designing and analysing electronic circuits (analog and digital)
- Supporting schematic capture and PCB layout
- Assisting with FPGA development using VHDL and/or Verilog
- Testing and validating circuits and PCBs in a lab environment
- Writing clear technical documentation and test reports
- Collaborating with teams across R&D, production, quality, and supply chain
This role is designed to help you develop confidence, practical engineering skills, and sound technical judgement.
What We’re Interested In
Rather than expecting you to know everything already, we’re interested in how you think about electronics and how you explain your work. You might recognise yourself in examples like these:
- Circuit Design: You’ve designed circuits through university projects, internships, or personal work. You can explain why you chose certain components or approaches. You understand basic trade-offs such as performance, safety, and reliability.
- High Voltage Awareness: You understand the difference between high voltage and high current. You’re aware of safety considerations such as insulation, spacing, and controlled testing. You approach higher-energy systems thoughtfully and carefully.
- PCB Design & Tools: You’ve used schematic capture or PCB layout tools (e.g. Altium Designer or similar). You’ve taken a design from schematic to layout, even at an academic or introductory level. You’re interested in how layout choices affect real-world behaviour.
- FPGA / Embedded Systems: You’ve had exposure to VHDL or Verilog through coursework or projects. You can describe a basic FPGA or digital logic project you’ve worked on. You’re curious about how hardware and embedded logic work together.
- Lab & Testing: You’ve used lab equipment such as oscilloscopes, power supplies, or multimeters. You’ve taken measurements to verify or troubleshoot a circuit. You’re comfortable learning safe lab practices and documenting results.
Key Responsibilities (With Support)
- Assist with hardware design and development activities
- Support PCB prototyping, testing, and debugging
- Contribute to FPGA development tasks
- Help select components with guidance from senior engineers
- Produce schematics, test information, and technical documentation
- Learn and follow structured hardware design processes
- Work collaboratively with engineers across different teams
What You’ll Bring
- A degree (or close to completing one) in Electrical or Electronic Engineering
- A solid understanding of core electronics principles
- Curiosity, willingness to learn, and attention to detail
- A collaborative approach and clear communication style
- An interest in designing reliable, high-quality hardware
Why This Role?
- A genuine graduate-level engineering role based in Greenwich
- Mentoring and technical development from experienced engineers
- Hands-on exposure to power electronics, FPGA, and lab testing
- A supportive, inclusive team environment that values learning
If you are interested, please apply!
Graduate Electronic Design Engineer in London employer: STR Group Limited
Join a dynamic and supportive engineering team in Greenwich as a Graduate Electronic Design Engineer, where you'll have the opportunity to develop your skills in a collaborative environment. With a focus on mentoring and hands-on project experience, you'll gain invaluable insights into high-reliability electronic power systems while contributing to meaningful projects. The company fosters a culture of learning and inclusivity, ensuring that you grow both personally and professionally as you embark on your engineering career.
StudySmarter Expert Advice🤫
We think this is how you could land Graduate Electronic Design Engineer in London
✨Tip Number 1
Network like a pro! Reach out to your university alumni, attend engineering meetups, or join online forums. You never know who might have a lead on that perfect Graduate Electronic Design Engineer role.
✨Tip Number 2
Show off your skills! Create a portfolio showcasing your projects, especially those involving circuit design and PCB layout. This will give you an edge when chatting with potential employers about your hands-on experience.
✨Tip Number 3
Prepare for interviews by brushing up on your technical knowledge. Be ready to discuss your understanding of high voltage systems and PCB design tools. Confidence in your knowledge can really impress the hiring team!
✨Tip Number 4
Don’t forget to apply through our website! It’s the best way to ensure your application gets seen. Plus, we love seeing candidates who are proactive about their job search.
We think you need these skills to ace Graduate Electronic Design Engineer in London
Some tips for your application 🫡
Show Your Passion for Electronics:When writing your application, let us see your enthusiasm for electronics! Share any projects or experiences that sparked your interest in circuit design or PCB layout. We love to hear how you think about electronics and the choices you've made in your work.
Be Clear and Concise:Keep your application straightforward and to the point. Use clear language to explain your skills and experiences, especially when discussing technical concepts. We appreciate clarity, as it reflects your ability to communicate effectively in a collaborative environment.
Tailor Your Application:Make sure to customise your application for this specific role. Highlight relevant coursework, projects, or tools you've used that align with the responsibilities mentioned in the job description. This shows us that you’ve done your homework and are genuinely interested in joining our team.
Apply Through Our Website:Don’t forget to submit your application through our website! It’s the best way for us to receive your details and ensures you’re considered for the role. Plus, it makes the whole process smoother for both you and us!
How to prepare for a job interview at STR Group Limited
✨Know Your Electronics Basics
Brush up on your core electronics principles before the interview. Be ready to discuss circuit design, PCB layout, and any projects you've worked on. This shows your understanding and passion for the field, which is exactly what they’re looking for!
✨Showcase Your Curiosity
During the interview, express your eagerness to learn and grow. Share examples of how you've approached challenges in your projects or studies. This role values a collaborative mindset, so demonstrating your curiosity will resonate well with the interviewers.
✨Familiarise Yourself with Tools
If you’ve used tools like Altium Designer or have experience with VHDL/Verilog, be prepared to talk about it. Even if your experience is limited, showing that you understand their importance in the design process can set you apart from other candidates.
✨Prepare for Practical Questions
Expect questions that assess your problem-solving skills and safety awareness, especially regarding high-voltage systems. Think about scenarios where you had to troubleshoot or validate circuits, and be ready to explain your thought process clearly.
