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Boom Supersonic
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32 Boom Supersonic Electrical Engineer Jobs Hiring Near You

Boom Supersonic

CNC Programmer

Centennial, CO · On-site

$86K - $109K/yr

Boom Supersonic's mission is to make the world dramatically more accessible through a renaissance ... At Boom, we're bringing CNC programming capability in-house so we can iterate faster, verify ...

Boom Supersonic

Software Engineer, Embedded

Centennial, CO · On-site

$120K - $165K/yr

Boom Supersonic's mission is to make the world dramatically more accessible through a renaissance ... History of navigating cross-discipline technical problems-across software, electrical, and ...

Boom Supersonic

Software Engineer, Embedded

Centennial, CO · On-site

$120K - $165K/yr

Boom Supersonic's mission is to make the world dramatically more accessible through a renaissance ... History of navigating cross-discipline technical problems-across software, electrical, and ...

Boom Supersonic

CNC Applications Engineer

Centennial, CO · On-site

$109K - $137K/yr

Boom Supersonic's mission is to make the world dramatically more accessible through a renaissance ... Start the Best Work of Your Career at Boom As a CNC Applications Engineer focused on metallic ...

Boom Supersonic

Senior Quality Engineer

Centennial, CO · On-site

$123.75K - $157.23K/yr

Boom Supersonic is building the Overture supersonic airliner and the Superpower gas turbine ... Not a traditional quality engineering role At most companies, a quality engineer inherits a system ...

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Boom Supersonic Jobs Information

What are the key skills and qualifications needed to thrive as an Electrical Engineer, and why are they important?

To thrive as an Electrical Engineer, you need a solid understanding of circuit design, electronics, mathematics, and physics, usually backed by a bachelor's degree in electrical engineering or a related field. Familiarity with CAD software, simulation tools like MATLAB or PSpice, and knowledge of relevant industry standards or certifications (such as a Professional Engineer license) are commonly expected. Strong problem-solving abilities, teamwork, and effective communication skills set outstanding engineers apart. These competencies are critical for designing safe, efficient electrical systems and collaborating effectively on complex engineering projects.

What are some common challenges Electrical Engineers face when working on multidisciplinary project teams?

Electrical Engineers often collaborate with professionals from mechanical, civil, and software engineering backgrounds. A common challenge is ensuring clear communication and alignment of technical specifications, as each discipline may have different priorities and terminologies. Successfully navigating these challenges requires strong teamwork, adaptability, and the ability to translate complex electrical concepts for diverse audiences. Building mutual understanding helps prevent project delays and ensures seamless integration of electrical systems with other components.

What does an Electrical Engineer do?

An Electrical Engineer designs, develops, tests, and supervises the manufacturing of electrical equipment, such as electric motors, radar and navigation systems, communications systems, and power generation equipment. They work in a variety of industries, including energy, manufacturing, telecommunications, and electronics. Their role often involves problem-solving, project management, and ensuring that systems comply with safety and quality standards. Electrical Engineers also collaborate with other engineers and professionals to bring projects from concept to completion.

What is the difference between Electrical Engineer vs Electrical Technician?

AspectElectrical EngineerElectrical Technician
Required CredentialsBachelor's degree in electrical engineering or related fieldAssociate degree or technical diploma in electrical technology
Work EnvironmentDesign, development, and testing of electrical systems, often in offices or labsInstallation, maintenance, and troubleshooting of electrical systems, often on-site
Employer & Industry UsageEngineering firms, manufacturing, power generation, and consultingConstruction, maintenance, and manufacturing industries

Electrical engineers focus on designing and developing electrical systems, requiring a bachelor's degree, while electrical technicians handle installation and maintenance, typically with technical diplomas. Both roles are essential in the electrical industry but differ in responsibilities and educational requirements.

What other companies are hiring for Electrical Engineer jobs?
What are the most popular jobs at Boom Supersonic?
What are the most popular categories at Boom Supersonic?
Infographic showing various Electrical Engineer job openings at Boom Supersonic in the United States as of May 2026, with employment types broken down into 100% Full Time. Highlights an 100% Physical job distribution.
Electrical Engineer (Medium Voltage)

Electrical Engineer (Medium Voltage)

Boom Supersonic

Centennial, CO • On-site

$133K - $169K/yr

Full-time

PTO

Posted 18 days ago

Job description

Boom Supersonic is building the breakthrough Overture supersonic airliner and the Superpower industrial gas turbine - machines designed to push the limits of physics, engineering, and industrial ambition.
The Superpower platform generates tens of megawatts of electrical power. Turning that power into a reliable, fault-tolerant system requires world-class electrical engineering.
That's where you come in.
Electrical Engineer - Medium Voltage Systems
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. This role owns the medium-voltage system that turns shaft power into dependable 13.8kV electrical power, carrying it from generator terminals to islanded load while ensuring the system can protect itself, stay online, and deliver power when it matters.
This is medium-voltage electrical engineering at industrial scale.
The Superpower platform is designed to operate in arrays that scale to gigawatt-class islanded power. There is no grid to lean on for frequency reference, fault current, or voltage stability. You're not designing a system that parallels an infinite bus and lets the grid handle the hard problems. You're defining from first principles how a standalone 13.8kV machine starts, regulates voltage and frequency, rides through transients, protects itself under fault conditions, and delivers reliable power to critical loads. Grid interconnect is an option for certain applications - but off-grid is the primary design condition, and the harder one.
There's no existing system to reference, no senior vendor to defer to, and no legacy protection scheme to copy. The person who thrives in this environment reasons from first-principles physics, owns the outcome, and is energized, not deterred, by the parts of the job nobody has done before.
The Challenge
You will be responsible for the end-to-end electrical design of the 13.8kV medium-voltage system on the Superpower platform, from architecture through first energization, endurance testing, and field commissioning. No handoffs. No deferring to vendors on hard calls. You own the outcome.
In practice, that means:
Defining the MV architecture, single-line diagrams, protection philosophy, and concept of operations during preliminary design, including long-lead switchgear and generator circuit breaker specification and sourcing
Producing protection coordination studies, relay settings, and MV electrical drawings through detailed design
Owning first energization, relay commissioning, synchronization, load acceptance, and step-load testing
You own the 13.8kV electrical system end-to-end:
  • Generation, distribution, and protection of all medium-voltage power, from 13.8kV generator terminals through switchgear to downstream loads and optional grid interconnect
  • Generator excitation, voltage regulation, and interface requirements with the turbine control system
  • Switchgear and breaker systems, including generator circuit breakers, feeder breakers, and bus-tie configurations
  • Protection relay selection, settings, and coordination, including differential, overcurrent, ground fault, voltage, and frequency protection
  • Fault-current management, interrupting-duty analysis, and equipment rating coordination
  • Frequency control, synchronization, and load acceptance for islanded operation
  • CT/PT selection, metering, and sensing infrastructure for protection, control, and monitoring
  • MV load bank integration, transient response, and step-load testing
  • Neutral grounding strategy and ground fault detection
  • Arc-flash hazard analysis, electrical safety systems, and interlock design

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), applicant 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.

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