Boom Supersonic is building Superpower — a 42-megawatt industrial gas turbine derived from supersonic propulsion technology, purpose-built for frontier AI data centers where power demand is scaling faster than the grid can keep up. We're doing it in Denver, at a pace and cost point the industry says is impossible. Because we think the industry has forgotten what's possible.

Low voltage on Superpower is not a single domain. It spans 480VAC skid-level power distribution, machine control and actuation, instrumentation, and electronics down to 12–28VDC — and none of it has been designed yet. There is no inherited architecture to reverse-engineer, no incumbent system to maintain. You will reason from first principles, challenge assumptions early, and make design decisions that shape the platform for years. When something doesn't work at first energization, you will be the one on-site — tracing signals, reading schematics, finding the answer, and coming back the next day with a fix.

This is the kind of role where the breadth of what you own is genuinely rare. We are looking for an engineer who is energized by that, not just comfortable with it.

What You'll Do

• Define the LV architecture, single-line diagrams, interface requirements, and concept of operations during preliminary design.
• Produce wiring diagrams, schematics, cable schedules, load lists, I/O lists, and supporting analyses through detailed design.
• Own first-article build, electrical checkout, troubleshooting, first energization, and commissioning during test.

What You'll Own

The electrical design of every support system on the turbine:

• LV power distribution, conversion, control, and protection across 480VAC skid distribution, machine control and actuation, instrumentation, and 12–28VDC electronics
• Cable, harness, junction-box, connector, and control-panel architecture for skid-mounted industrial equipment
• Grounding, bonding, shielding, and EMI/EMC design practices across power, control, and instrumentation wiring
• Electrical interfaces with the turbine control system, including I/O definition, signal types, device power, permissives, and fault feedback
• Motor control systems, including VFDs, soft starters, contactors, overload protection, and control relays
• Fuel system electrical integration, including valves, actuators, heaters, instrumentation, and gas-conditioning equipment
• Lube oil system electrical integration, including pumps, heaters, coolers, level, temperature, and pressure instrumentation, and local controls
• Starting system electrical architecture, including starter motor interfaces, auxiliaries, permissives, and control circuits
• SCR and emissions system electrical integration, including injection systems, heaters, controls, instrumentation, and safety interlocks
• Load bank auxiliary systems, including fan power, controls, step-switching interfaces, feedback, and interlocks
• Cooling system electrical integration, including radiator fans, cooling tower interfaces, pumps, VFDs, instrumentation, and controls
• Enclosure and balance-of-plant electrical systems, including HVAC, lighting, fire detection, suppression interfaces, access control, and safety interlocks

You probably have:

• Experience designing and commissioning LV electrical systems for industrial equipment — turbines, compressors, generators, or similar rotating machinery.
• Hands-on fluency with motor control, instrumentation wiring, and control panel design in 480VAC and 12–28VDC environments.
• The ability to produce clean, buildable drawings: schematics, wiring diagrams, cable schedules, and I/O lists that a technician can follow without a phone call.
• Comfort working across mechanical, controls, and instrumentation teams — and translating between them when needed.

You will thrive here if:

• You find first-energization day more exciting than intimidating.
• You have strong instincts about how systems should be laid out, and you'd rather voice a concern early than quietly inherit someone else's mistake.
• You are equally at home at a desk producing drawings and on the floor tracing a wiring problem.
• You want to see your work run — not hand it off.

Compensation

• P3 Level — Typically 5–10 years of experience — Base salary range: $107,000–$135,000
• P4 Level — Typically 10–15 years of experience — Base salary range: $133,000–$169,000

Actual salaries will vary based on factors including but not limited to location, experience, and performance. The range listed is just one component of Boom's total rewards package for employees. Other rewards may include long-term incentives/equity, a flexible PTO policy, and many other progressive benefits.

There is no set deadline to apply for this job opportunity. Applications will be accepted on an ongoing basis until the search is no longer active.

ITAR Requirement

To conform to U.S. Government aerospace technology export regulations (ITAR and EAR), applicants must be a U.S. citizen, lawful permanent resident of the U.S., protected individual as defined by 8 U.S.C 1324b(a)(3), or eligible to obtain the required authorizations from the U.S. Department of State. Learn more about ITAR here.

Boom is an equal opportunity employer and we value diversity. All employment is decided on the basis of qualifications, merit, and business need.

Want to build a faster future? Come join Boom.