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- Tasks: Lead the design of high-speed digital electronics for cutting-edge defence applications.
- Company: Join Carbon60, a leader in defence technology and innovation.
- Benefits: Enjoy competitive pay, full-time onsite work, and opportunities for professional growth.
- Why this job: Be part of a dynamic team creating impactful technology in a collaborative environment.
- Qualifications: Extensive experience in high-speed digital design and proficiency in VHDL, C, C++, or Python required.
- Other info: Security clearance is necessary; this role offers a 12-month contract.
The predicted salary is between 43200 - 72000 Β£ per year.
Lead High Speed Digital & Hardware Design Engineer
Carbon60 is seeking a highly skilled High Speed Digital Design Engineer to join their defence client\βs team in Stevenage. As part of a large group of analogue and digital electronics design engineers, you will be responsible for the electronics design and development of high-speed MPSoC FPGA and AI hardware solutions targeting SDR, radar signal processing, and sensor fusion applications.
Responsibilities
- Support the Technical Lead/Architect in collaboration with the systems, software, firmware, mechanical, and production teams to specify elegant and optimised solutions that satisfy customer needs.
- Be responsible for the detailed design of the high-speed digital aspects, as well as leading all the other electronics design activity through the full product development lifecycle.
- Develop elegant hardware architectures through detailed understanding and collaboration with various teams.
- Configure and document designs to a high professional standard.
Required Skills and Qualifications
- Extensive experience in complex, high-speed digital electronics design.
- Proficiency in VHDL to support board-level test and debug.
- Proficiency in C, C++, or Python to support board-level test and debug.
- Experience in MPSoC FPGA, DDR and Flash memory, and high-speed serial interconnect design.
- Familiarity with DSP concepts for SDR, radar signal processing, and optical sensors.
- Strong academic background to support this intellectually demanding role.
- Excellent ability to configure and document designs to a high professional standard.
- Strong desire to drive collaboration and ensure successful delivery.
Location: Stevenage
Clearance: Security Clearance β SC
Duration: 12 months
Pay rate: Umbrella 58 per hour
Work Structure: Full time onsite
If you are interested, please apply directly. For more information, please email
Carbon60, Lorien & SRG β The Impellam Group STEM Portfolio are acting as an Employment Business in relation to this vacancy.
Lead High Speed Digital & Hardware Design Engineer employer: Carbon 60
Contact Detail:
Carbon 60 Recruiting Team
StudySmarter Expert Advice π€«
We think this is how you could land Lead High Speed Digital & Hardware Design Engineer
β¨Tip Number 1
Network with professionals in the defence and electronics sectors. Attend industry events, webinars, or local meetups to connect with people who work in similar roles. This can help you gain insights into the company culture and potentially get a referral.
β¨Tip Number 2
Familiarise yourself with the latest trends and technologies in high-speed digital design and FPGA development. Being knowledgeable about current advancements can give you an edge during discussions with the hiring team.
β¨Tip Number 3
Prepare to discuss specific projects where you've successfully implemented high-speed digital designs. Be ready to explain your role, the challenges faced, and how you collaborated with other teams to achieve project goals.
β¨Tip Number 4
Research Carbon60 and their defence client thoroughly. Understanding their mission, values, and recent projects will allow you to tailor your conversations and demonstrate your genuine interest in contributing to their success.
We think you need these skills to ace Lead High Speed Digital & Hardware Design Engineer
Some tips for your application π«‘
Understand the Role: Before applying, make sure you fully understand the responsibilities and requirements of the Lead High Speed Digital & Hardware Design Engineer position. Familiarise yourself with key terms like MPSoC FPGA, SDR, and sensor fusion to demonstrate your knowledge in your application.
Tailor Your CV: Customise your CV to highlight relevant experience in high-speed digital electronics design, VHDL, and programming languages like C, C++, or Python. Use specific examples from your past work that align with the job description to showcase your skills effectively.
Craft a Compelling Cover Letter: Write a cover letter that not only outlines your qualifications but also expresses your enthusiasm for the role. Mention how your background aligns with the company's needs and your desire to contribute to their projects in defence technology.
Proofread Your Application: Before submitting, carefully proofread your application materials. Check for any spelling or grammatical errors, and ensure that all technical terms are used correctly. A polished application reflects your attention to detail and professionalism.
How to prepare for a job interview at Carbon 60
β¨Showcase Your Technical Expertise
Be prepared to discuss your extensive experience in high-speed digital electronics design. Highlight specific projects where you utilised VHDL, C, C++, or Python, and be ready to explain the challenges you faced and how you overcame them.
β¨Demonstrate Collaboration Skills
Since this role involves working closely with various teams, share examples of how you've successfully collaborated with systems, software, and firmware teams in past projects. Emphasise your ability to drive collaboration and ensure successful delivery.
β¨Understand the Product Lifecycle
Familiarise yourself with the full product development lifecycle. Be ready to discuss how you have led design activities from concept through to production, and how you ensure that designs are documented to a high professional standard.
β¨Prepare for Technical Questions
Expect technical questions related to MPSoC FPGA, DDR and Flash memory, and high-speed serial interconnect design. Brush up on DSP concepts relevant to SDR and radar signal processing, as these may come up during the interview.