Principal Responsible Engineer I - Space Payloads

About The Position

Requirements

• Bachelor’s degree in Electrical Engineering, Aerospace Engineering, Physics, or related technical field. (Master’s or Ph.D. preferred.)
• 9 years of engineering experience in space payload development or RF/antenna systems.
• Direct experience designing and testing phased array antennas for space or high-reliability applications.
• Hands-on experience with RF receivers, including front-end architectures, downconverters, filtering, and RF system modeling.
• Demonstrated understanding of payload control systems, digital interfaces, command & data handling, and embedded hardware/software interactions.
• Experience with space power systems, including DC-DC converters, load analysis, protections, and spacecraft power interfaces.
• Proven experience executing or overseeing flight qualification and environmental test campaigns (TVAC, vib/shock, EMC, radiation considerations).
• Leadership experience, including mentoring or leading multidisciplinary engineering teams.
• Proficiency with engineering tools such as RF simulation packages (HFSS, CST, ADS, MATLAB), schematic/PCB tools, or systems engineering tools (Doors, Cameo).
• Strong knowledge of space systems engineering practices, requirements flowdown, verification/validation, and configuration management.
• Excellent communication skills with ability to present complex technical information to diverse audiences.

Nice To Haves

• Experience managing projects for government and commercial customers.
• Experience with radiation-tolerant design, proton/total-dose analysis, and EEE parts selection.
• Experience with high-rate manufacturing, rapid development cycles, or NewSpace ecosystems.
• Prior role as a Responsible Engineer, Technical Lead, IPT Lead, or Chief Engineer on flight hardware.
• Experience with ground test setups, RF test equipment, phased array calibration, and antenna range measurement.
• Background in digital signal processing, beamforming algorithms, or embedded firmware for payload control.
• Experience mentoring less experienced project engineers and design engineers in associated discipline
• High energy and a “get it done” attitude

Responsibilities

• Serve as the Payload Responsible Engineer (RE) and primary technical point of contact for the payload throughout the mission lifecycle.
• Lead the end-to-end engineering effort for the payload, including architecture, design, prototyping, integration, test, environmental qualification, and flight readiness.
• Coordinate and direct a team of RF, digital, mechanical, thermal, software, and systems engineers to ensure consistent and timely technical execution.
• Develop and review payload control schemes, internal data interfaces, command & telemetry architecture, and firmware/software integration as needed.
• Oversee development and performance of phased array antennas including beamforming, calibration, and environmental considerations.
• Manage all flight qualification activities, including environmental test planning (thermal vacuum, vibration, shock, EMC), margin assessment, and final acceptance testing.
• Generate and maintain payload-level documentation: requirements, ICDs, block diagrams, test plans, verification matrices, risk registers, and design reviews.
• Interface with spacecraft systems engineering, mission assurance, manufacturing, vendors, and test facilities.
• Drive root cause analysis, anomaly resolution, and technical risk mitigation throughout development and test campaigns.
• Communicate status, technical trades, risks, and design decisions to internal leadership and external customers.

Benefits

• company stock options
• health
• dental
• vision
• HSA
• FSA
• life
• disability
• retirement plans