Public summary
We are seeking a hands-on RF Engineer to design, develop, and validate mission-critical RF subsystems within cutting-edge products. The role involves full ownership of RF architectures from concept through to field deployment, focusing on telemetry, control, and low-latency video links. Responsibilities include RF front-end development, antenna integration, real-time signal optimization, and validation in real-world conditions. Candidates should have a degree in Electrical or Communications Engineering, strong practical RF experience, and an empirical approach to engineering. English proficiency is required, German is a plus. The position offers the opportunity to work in a mission-driven, innovative environment with flexible hours and remote options.
Location and work setup
- Location
- Munich
- Remote status
- Hybrid
- German requirement signal
- No German Required Detected
- Detected job language
- English
Responsibilities
- Design and integrate RF subsystems operating in the 1-10 GHz range for telemetry, control, and digital video links. - Develop RF front-ends including mixers, filters, LNAs, PAs, and frequency conversion stages. - Design and implement antennas and receiver systems from schematic design to field validation. - Set up and operate RF and mixed-signal test environments (e.g., VNA, spectrum analyzers). - Optimize low-latency H.264/H.265 video pipelines over RF links for robustness and minimal delay. - Validate RF and link performance through real-world field testing and collaborate with cross-functional teams.
Qualifications
- Degree in Electrical Engineering, Communications Engineering, or a related field. - Strong hands-on experience with RF engineering and real hardware. - Ability to take full ownership from schematic design to field deployment. - Empirical, results-oriented mindset prioritizing practical performance. - Ability to make sound technical decisions under pressure. - Proficiency in English required, German language skills are a plus. - Preferred: experience with FPGA-based RF/video pipelines, HDL programming, EM simulation tools like HFSS or CST, and background in mission-critical systems such as UAV, aerospace, or defense.