System Architect Radar Systems
Role details
Job location
Tech stack
Job description
NXP is looking for an experienced and highly innovative System Architect Radar Systems to drive the definition, development, and deployment of next-generation automotive and robotic radar solutions.
In this role, you will provide technical leadership to the system innovation team from concept creation and system architecture through hardware realization, embedded software implementation, system integration, and validation. You will work closely with multidisciplinary global teams to introduce advanced sensing and radar concepts for automotive and robotics applications., Technical Leadership
- Development of system solutions / demos to show off the features and benefits of our radar products
- Lead technical decision-making across radar sensing, RF front-end, signal processing, embedded software, and system integration domains.
- Drive innovation through the development of new radar concepts, algorithms, diagnostics, and sensing capabilities.
- Mentor engineers and provide technical leadership across globally distributed development teams.
- Act as a key technical interface toward customers, partners, and internal stakeholders.
Radar System Development
- Define radar system requirements, performance budgets, and technical specifications.
- Drive radar architecture trade-off analyses covering RF performance, antenna concepts, signal processing, compute requirements, power consumption, and cost.
- Lead development of advanced FMCW radar sensing solutions, including calibration, diagnostics, interference mitigation, and performance optimization.
- Define system validation approaches and performance metrics from simulation through vehicle-level testing.
- Support technology roadmaps for future radar and sensing platforms.
System Integration & Validation
- Drive end-to-end system integration from silicon and RF subsystems to complete radar applications.
- Define and execute laboratory, vehicle, and customer validation activities.
- Develop innovative test methodologies, measurement setups, and automation frameworks.
- Support root-cause analysis and resolution of complex system-level issues.
Requirements
The ideal candidate combines a strong foundation in RF and radar technologies with deep expertise in signal processing, embedded systems, algorithm development, and practical system realization. You are passionate about solving difficult technical challenges, capable of bridging multiple engineering disciplines, and able to drive innovation from idea to implementation., * MSc or PhD in Electrical Engineering, Signal Processing, Telecommunications, Physics, Computer Engineering, or related field.
- 10+ years of experience in radar systems, RF systems, ADAS sensing, or related high-performance embedded systems.
- Proven track record defining and delivering complex system architectures from concept through production.
- Strong expertise in FMCW radar systems and radar signal processing.
- Deep understanding of RF systems, antennas, and radar front-end architectures.
- Extensive experience in algorithm development, simulation, implementation, and system validation.
- Proficiency with MATLAB, Python, C and/or C++.
- Experience working across hardware, software, and algorithm development disciplines.
- Strong analytical and debugging skills with a hands-on engineering mindset.
Preferred Qualifications
- Experience with automotive radar products operating in the 77GHz and 79GHz bands.
- Knowledge of radar SoCs, radar transceivers, and embedded radar processing architectures.
- Experience with antenna concepts, antenna matching, and RF characterization.
- Knowledge of functional safety (ISO 26262) and automotive development processes.
- Experience with machine-learning-assisted sensing applications.
- Experience implementing DSP algorithms on embedded processors, DSP cores, FPGA platforms, or hardware accelerators.
- Experience in low-power system architecture and system-level optimization.
- Strong background in laboratory characterization, measurement automation, and custom test-tool development.
- Demonstrated innovation through patents, publications, or significant technical contributions.
Leadership Competencies
The successful candidate will demonstrate:
- Ability to translate innovative ideas into working products.
- Strong cross-functional leadership and influence without formal authority.
- Capability to bridge algorithm, software, hardware, RF, and system engineering domains.
- Excellence in working across geographically distributed teams.
- Pragmatic problem-solving and results-oriented execution.
- Passion for engineering excellence, innovation, and continuous improvement.