At DeltaQuad, you’ll work on technology that truly matters. As a pioneer in long-range electric VTOL drones (Vertical Take-Off and Landing), we develop robust systems in collaboration with trusted partners, deployed across the globe in defence, agriculture and inspection. Our drones are reliable, user-friendly, and built to perform in demanding environments.
We combine technical innovation with a pragmatic mindset. What we do today shapes where we’ll be tomorrow — and you’ll play a crucial role in that journey.
Our core values
Partnerships – Growing together through long-term collaboration
Customer focus – Thinking and acting with the customer in mind
Ownership – Taking responsibility for what we do
Innovation – Finding smart, practical solutions
Excellence – Focused on quality and results
Team spirit – Building trust, growth, and enjoyment together
As an Electrical Engineer at DeltaQuad, you take technical ownership of the design, development, and integration of mission-critical electrical and avionics systems for advanced UAV platforms.
You define and implement the electrical architecture, integrating subsystems such as power distribution, avionics, PX4/Pixhawk-based flight control systems, C2 and GCS interfaces, sensors, RF communication links, and mission payloads.
You design and iterate compact, low-power, SWaP-optimised avionics and interface boards for UAVs operating in GPS-denied and electronically contested environments. Your work emphasises reliability, safety, EMI robustness, and scalability for series production.
You are actively involved in schematic design, PCB layout, and system-level integration, ensuring designs meet high standards for manufacturability, consistency, and compliance.
With strong expertise in power electronics, energy management, and battery/BMS systems, you implement robust grounding, shielding, and noise mitigation strategies.
You enjoy solving complex cross-domain challenges, from RF interference and power integrity issues to system-level failures — and contribute to building dependable, production-ready UAV platforms that enhance operational resilience and safety across Europe.
Design and own electrical architectures for mission-critical UAV systems
Develop and review schematics and multi-layer PCBs (Altium/KiCad) for high-power, high-reliability, EMC-critical applications
Design SWaP-optimised avionics and power distribution systems, including protections and redundancy for critical loads
Integrate PX4/Pixhawk-based hardware, including sensor buses, power trees, and safety circuits
Ensure robust EMI/EMC performance through grounding schemes, filtering, shielding, and domain separation
Integrate RF systems (antennas, radios, GNSS, data links) with strong focus on signal integrity and interference mitigation
Perform system-level debugging and root-cause analysis using lab instrumentation (oscilloscopes, logic analysers, current probes)
Conduct FMEA, FTA, and reliability/safety analyses
Define and lead verification, validation, and acceptance testing, including HIL and flight testing
Support certification and compliance activities (aerospace/military standards)
Contribute across the full product lifecycle: requirements design bring-up testing iteration release
Collaborate closely with mechanical, software, systems, and flight test teams
Bachelor’s or Master’s degree in Systems & Control, Aerospace, Mechatronics, or a related field
4–8+ years of experience in embedded electronics for UAVs, robotics, or safety-critical systems
Strong experience with electrical system design for UAVs, including avionics and power systems
Solid understanding of PX4/Pixhawk architectures and real-world integration
Expertise in power electronics, battery systems, and efficient DC distribution
Strong PCB design skills (multi-layer stackups, dense routing, manufacturing-ready documentation)
Deep understanding of EMI/EMC, grounding, and noise mitigation techniques
Knowledge of RF fundamentals (impedance matching, signal integrity, grounding)
Experience with embedded controllers, sensors, actuators, and communication interfaces (CAN, UART, Ethernet)
Familiarity with FPGA-based systems and hardware–software interaction is a plus
Experience with UAV testing workflows: simulation, HIL, field testing, and flight validation
Proven ability to deliver production-ready hardware (TRL 6–8), from concept to release
Strong ownership mindset, proactive communication, and team collaboration skills
Coaching and professional growth opportunities
27 vacation days (based on full-time)
38-hour workweek with flexible working hours
Travel reimbursement of €0.23/km or a fully covered NS Business Card
Excellent pension scheme through the PME pension fund
Work in an innovative, high-tech environment with real-world impact
Open, informal company culture where your ideas are valued
Lunch provided by DeltaQuad, monthly team drinks, and regular team activities
