At a Glance
- Tasks: Design and develop cutting-edge radar and communication systems.
- Company: Join a leading tech firm revolutionising air defence technology.
- Benefits: Attractive salary, flexible working hours, and opportunities for growth.
- Other info: Dynamic team environment with hands-on experience in advanced technologies.
- Why this job: Make a real difference in defence technology with innovative projects.
- Qualifications: Degree in Electronics Engineering and strong knowledge of RF electronics.
The predicted salary is between 40000 - 50000 € per year.
As an Electronics Engineer, you will turn complex signals into operational advantage. From deriving system requirements through modelling, simulation and implementation, you will develop the signal‑processing capability at the core of our platforms. Working across radar, imaging, communications and PNT systems, you will take algorithms from first principles to real‑world deployment, helping move air defence systems from concept to production and into the field.
Responsibilities
- Contribute to the design, modelling, and testing of radar subsystems including RF front‑ends, signal conditioning, antennas, and timing/synchronisation circuits.
- Create schematics and multilayer PCB layouts for high‑speed digital, RF, mixed‑signal, and power electronics using industry‑standard CAD tools.
- Develop hardware architectures for embedded systems, including microcontrollers, FPGAs, ADC/DAC interfaces, and power management circuits.
- Build and evaluate prototypes, perform debugging, and conduct hardware validation using oscilloscopes, VNAs, spectrum analysers, and other lab equipment.
- Integrate electronic modules into radar platforms or wider system architectures, ensuring compatibility, EMC compliance and reliability.
Requirements
- Degree in Electronics Engineering, Electrical Engineering or related field.
- Strong knowledge of radar principles, RF electronics and signal processing fundamentals.
- Proficiency in PCB design tools (e.g Altium, KiCad, Cadence).
- Experience with embedded hardware, microcontrollers, and digital interfaces (SPI, I2C, UART, LVDS, etc.).
- Hands‑on experience with test equipment such as oscilloscopes, spectrum analysers, VNAs, logic analysers.
- Understanding of EMC/EMI, grounding, shielding, and high‑speed design practices.
- Ability to read and interpret technical specifications and standards.
Preferred Qualifications/Experience
- Experience in fast‑paced R.
Electronics Engineer employer: Cambridge Aerospace
Join a forward-thinking company that values innovation and collaboration, where as an Electronics Engineer, you will play a pivotal role in transforming complex signals into operational advantages. Our supportive work culture fosters continuous learning and professional growth, offering access to cutting-edge technology and resources in a dynamic environment. Located in a vibrant area, we provide unique opportunities to engage with industry leaders and contribute to impactful projects that enhance air defence systems.
StudySmarter Expert Advice🤫
We think this is how you could land Electronics Engineer
✨Tip Number 1
Network like a pro! Reach out to fellow engineers, attend industry events, and connect with professionals on LinkedIn. You never know who might have the inside scoop on job openings or can refer you directly.
✨Tip Number 2
Show off your skills! Create a portfolio showcasing your projects, prototypes, and any relevant work you've done. This is your chance to demonstrate your expertise in PCB design and signal processing – make it shine!
✨Tip Number 3
Prepare for interviews by brushing up on your technical knowledge and problem-solving skills. Be ready to discuss your experience with radar systems and embedded hardware, and don’t forget to ask insightful questions about the company’s projects.
✨Tip Number 4
Apply through our website! We love seeing applications come directly from passionate candidates. Tailor your application to highlight your relevant experience in RF electronics and signal processing – it’ll make you stand out!
We think you need these skills to ace Electronics Engineer
Some tips for your application 🫡
Tailor Your CV:Make sure your CV is tailored to the Electronics Engineer role. Highlight your experience with radar systems, PCB design, and any relevant projects that showcase your skills in signal processing and embedded systems.
Craft a Compelling Cover Letter:Your cover letter is your chance to shine! Use it to explain why you're passionate about electronics engineering and how your background aligns with our mission at StudySmarter. Be specific about your experiences and how they relate to the job.
Showcase Your Technical Skills:Don’t forget to mention your proficiency with industry-standard CAD tools and test equipment. We want to see your hands-on experience, so include any relevant projects or prototypes you've worked on that demonstrate your technical abilities.
Apply Through Our Website:We encourage you to apply through our website for a smoother application process. It helps us keep track of your application and ensures you don’t miss out on any important updates from us!
How to prepare for a job interview at Cambridge Aerospace
✨Know Your Signals
Brush up on your knowledge of radar principles and signal processing fundamentals. Be ready to discuss how you've applied these concepts in past projects, as this will show your practical understanding and ability to turn complex signals into operational advantages.
✨Show Off Your Design Skills
Prepare to talk about your experience with PCB design tools like Altium or KiCad. Bring examples of schematics or layouts you've created, and be ready to explain your design choices and how they relate to high-speed digital and RF electronics.
✨Hands-On Experience Matters
Make sure you can discuss your hands-on experience with test equipment such as oscilloscopes and spectrum analysers. Share specific instances where you debugged hardware or validated prototypes, as this demonstrates your practical skills and problem-solving abilities.
✨Understand the Bigger Picture
Be prepared to explain how your work integrates into larger systems, especially in terms of compatibility and reliability. Discuss any experience you have with EMC compliance and how you've ensured that your designs meet industry standards.
