RF Hardware Reliability Engineer; Starshield

Overview

Space

X was founded under the belief that a future where humanity is out exploring the stars is fundamentally more exciting than one where we are not. Today Space

X is actively developing the technologies to make this possible, with the ultimate goal of enabling human life on Mars.

HARDWARE RELIABILITY ENGINEER (STARSHIELD)

Starshield leverages Space

X’s Starlink technology and launch capability to support national security efforts. While Starlink is designed for consumer and commercial use, Starshield is designed for government use, with an initial focus on earth observation, communications, and hosted payloads. As a hardware reliability engineer on the Starshield team, you will demonstrate extreme ownership through detailed and thorough hardware bring-up, characterization, and qualification testing.

You will directly drive improvements to the product, make changes to our processes and controls, and ensure that the hardware is reliable through all aspects of its life cycle from production to orbit.

Starshield is a quickly growing program and there is a wide range of engaging opportunities. You will work with many cross-disciplinary teams and will need to think at a system level to ensure that your design is viable. Our development timelines are quick and you will need to rigorously explore solutions for previously unsolved or unknown problems. Every day we push the limits of what is possible through innovation, determination, and teamwork to drive the mission to success.

As a Hardware Reliability Engineer on the Starshield team, you will be responsible for solving systemic on orbit and production issues, running root cause of failures from end to end, and working to drive process and design changes to continually improve production and on-orbit product quality and reliability. Engineers in this role are expected to be hands-on with the hardware and become intimately familiar with the design, manufacturing processes, test procedures, and on orbit operation of the sub-assemblies they support.

• Support on-call shifts and be ready to respond to satellite and gateway alerts, review telemetry, and submit commands to help recover operations
• Drive multidisciplinary failure investigations, build and track fault trees, and help run tests/experiments on the ground to narrow down probable causes
• Drive corrective action of design, production, test, and operational issues to ultimately improve satellite reliability
• Perform hands-on troubleshooting in the lab as part of key efforts to help identify root-cause
• This includes troubleshooting complex RF systems, various compute and network avionics and power electronics
• Create data analysis programs to identify satellite anomalous behavior as well as production yield issues to help better understand reliability performance
• Conduct regular reliability reviews to ensure that design intent is achieved and well-communicated; identify opportunities for risk reduction, and removal of complexity in designs and processes to improve on orbit life

• Bachelor's degree in electrical engineering, computer engineering, or physics
• 1+ years of experience in a design or manufacturing engineering role (student project team or internship experience qualifies)

• Strong interpersonal and collaborative skills, enthusiasm for the team’s spirit of innovation and mission of improving reliability in cutting-edge technology
• Demonstrated capability to think creatively and solve complex problems
• Experience in mechatronics or other cross disciplinary combination of mechanical, electrical, and software skill sets
• Experience working with RF test equipment as well as debugging and testing RF systems
• Proficiency with programming and automation/scripting languages (Python, C, C++, SQL)
• Knowledge of quality tools such as design of experiments, statistical process control, root cause analysis and corrective action, process failure mode and effects analysis (PFMEA), and various problem-solving approaches
• Experience in a fast-paced, iterative design environment within the consumer electronics, mobile handset, medical devices, marine, aerospace, or…