R&D Test Engineer - Power Systems

Posted 12 Hours Ago
Be an Early Applicant
Devens, MA
Mid level
Semiconductor
The Role
The R&D Test Engineer will design, build, and commission test equipment for high-temperature superconducting magnets, ensuring technical risks are addressed. This includes developing test plans, challenging system requirements, mitigating safety hazards, and supporting troubleshooting activities. Collaboration across teams is essential to achieve test objectives efficiently and safely, while continuously iterating on designs and documenting results.
Summary Generated by Built In

About Commonwealth Fusion Systems: 


Commonwealth Fusion Systems is on a mission to deliver the urgent transition to fusion energy.


Combining decades of research, top talent and new technologies, we’re designing and building commercially viable fusion power plants. And working with policymakers and suppliers to build the energy industry of the future. 


We’re in the best position to make it happen. Since 2018, we’ve raised over $2 billion in capital – more than any other fusion energy company in the U.S.


Now we’re looking for more thinkers, doers, builders, and makers to join us. People who’ll bring new perspectives, solve tough problems, and thrive as part of a team. 


If that’s you and this role fits, we want to hear from you.


Join the power movement as a R&D Test Engineer


The role of a Test Engineer is to seamlessly flex between multiple disciplines and groups to effectively execute tests and projects on aggressive schedules supporting Commonwealth Fusion System’s mission. This engineer will be primarily responsible for testing and retiring risks for CFS’ HTS magnets. They must have a fundamental understanding of mechanical, electrical, materials, fluids and software engineering, or some combination thereof. This role in particular heavily emphasizes the electromechanical design of power systems within the magnet test facility. They will be responsible for the design, build, and commissioning of equipment in support of development, qualification and production test objectives. They must work collaboratively across manufacturing, R&D, procurement, and SPARC teams to achieve their test campaigns. It is also the role of the test engineer to constantly push and challenge the requirements, risks, and test objectives that they are given to help the combined stakeholders come to a consensus on why the planned test is required and what data is deemed essential for the outcome to be achieved.

What you'll do:

  • Own and retire technical risks by designing, analyzing, procuring, building, and commissioning test equipment utilizing your knowledge of physics, structures, instrumentation and controls, mechanical and electrical systems
  • Mechanical design and build of specialized electrical equipment to support magnet testing
  • Develop test plans that effectively retire technical risks. Plans include appropriate instrumentation and controls necessary to obtain repeatable and reliable data
  • Understand, challenge and maintain well-documented requirements and risks for the system or component under test. Documentation includes: design reviews, wiring lists, P&IDs, schematics, CAD assemblies, drawings, and operations software
  • Identify and mitigate safety hazards associated with test equipment and test plans
  • Design safety into the system and produce safety documentation such as job hazard assessments and test readiness reviews
  • Design experiment campaigns that match our fast pace and work hard to maintain the proposed schedule
  • Troubleshoot and resolve integration and test discrepancies during build, commissioning and operation
  • Support end users with troubleshooting and upgrades once the test stand is handed over
  • Iterate on designs, equipment and operations for repeat tests to improve test efficiency
  • Create physics/mechanical models to predict results. Develop custom tools to analyze generated data.
  • Compile test results clearly for review
  • Lead anomaly investigations and their resolution (root cause analysis), and present results to a team of physicists and engineers
  • Execute plans for future expansion, including capital equipment and floor layouts, always having a vision for scalability of systems into a larger context.
  • Provide visions for multi-use test infrastructure that can be scaled for multiple applications

What we’re looking for:

  • Bachelor's degree in engineering or science field is required; mechanical engineering, electrical engineering or similar applied physics degree
  • 5+ years experience designing/building/commissioning electrical equipment with hands on experience and a proven ability to deliver reliable data
  • 5+ years using CAD software (NX is a plus) to design complex assemblies, producing drawings for procurement, GD&T and tolerance stack-ups
  • 5+ years experience with analysis of mechanical components (Finite Element Analysis), strength of materials and failure criteria
  • Excellent troubleshooting/problem-solving skills with an ability to innovate creative solutions to challenging problems
  • The ability to effectively communicate technical topics to both technical and non-technical audiences.
  • The ability to challenge requirements and defend results when needed, as well as the ability to accept feedback and apply it readily
  • Proven collaboration skills including active listening and facilitating a productive discourse on problems
  • A solid grasp of basic mechanical engineering concepts such as fasteners design, welds and bolted joints
  • A solid grasp of electromagnetic fundamentals – voltage, current, resistance, Ohm’s Law, AC/DC, right-hand rule, solenoids, etc.
  • Familiarity with superconducting magnets (Lorentz loads, magnet design, conductor design)
  • Proactive with a focus on improving efficiency and throughput of processes
  • High self-motivation and drive to execute quickly. A can-do attitude and an eagerness to learn
  • Experience with designing and commissioning new test facilities
  • Experience with developing and executing complex test procedures, in particular tests that include multiple skill sets, different testing phases, and 3rd parties
  • Willingness to occasionally travel or work required nights/weekends/overtime for testing

Bonus points for:

  • Experience with structural FEA software, especially ANSYS and COMSOL
  • Experience using NX and Teamcenter
  • Experience with high field magnet testing traditional or superconducting
  • Experience with designing fluid systems – P&IDs, component selection, ASME design codes.
  • Experience with cryogenic equipment design and use for liquid nitrogen and supercritical helium use – vacuum jacketed equipment, cryocoolers, phase separators, cold traps
  • Experience with high vacuum equipment design and use – roughing pumps, turbopumps, ion gauges, residual gas analyzers
  • Experience with high voltage and high current power equipment design and use – power supplies, water cooled cables, insulation

Must-have requirements:

  • Ability to occasionally lift up to 50 lbs
  • Perform activities such as typing, stooping, standing, or sitting for extended periods of time
  • Dedication to safety to mitigate industrial hazards that may include heat, cold, noise, fumes, strong magnets, lead (Pb), high voltage, and cryogenics

#LI-Onsite


At CFS, we excel in fast-paced environments, driven by our values of integrity, execution, impact, and self-critique. As we grow, we’re eager to bring on mission-driven folks who offer diverse perspectives and fresh ways to tackle challenges.


We value diversity deeply and are proud to be an equal opportunity employer by choice. We consider all qualified applicants equally, regardless of race, color, national origin, ancestry, citizenship status, protected veteran status, religion, physical or mental disability, marital status, sex, sexual orientation, gender identity or expression, age, or any other basis protected by law.

Top Skills

Electrical Engineering
Mechanical Engineering
The Company
HQ: Cambridge, MA
327 Employees
On-site Workplace
Year Founded: 2018

What We Do

Commonwealth Fusion Systems (CFS) has the fastest, lowest cost path to commercial fusion energy.

CFS is collaborating with MIT to leverage decades of research combined with new groundbreaking high-temperature superconducting (HTS) magnet technology. HTS magnets will enable compact fusion power plants that can be constructed faster and at lower cost. CFS is now building SPARC, the world's first commercially relevant, net energy fusion demonstration device. SPARC will pave the way for the first fusion power plant, ARC, that will produce power on the grid.

The ultimate mission is to deploy fusion power plants to meet global decarbonization goals as fast as possible. CFS has assembled a team of leaders in tough tech, fusion science, and manufacturing with a track record of rapid execution. Supported by the world’s leading investors, CFS is uniquely positioned to deliver limitless, clean, fusion power to combat climate change.

If you are interested in joining our team, check out cfs.energy/careers for more information.

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