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Radiation Effects Engineer Jobs in Michigan (NOW HIRING)

Digital Engineer

Ann Arbor, MI · On-site

$65K - $75K/yr

Who We Are At Michigan Engineering, we develop the talent and technologies that move society ... radiation, or other effects on the design of electronic equipment. Experience with designing ...

Radiation Effects Engineer information

What does a radiation engineer do?

A radiation effects engineer analyzes how radiation impacts electronic components and systems, often working to improve their durability and performance in radiation-prone environments. They use specialized testing, modeling, and simulation tools to assess radiation risks and develop mitigation strategies, typically requiring knowledge of radiation physics and engineering standards.

What is a Radiation Effects Engineer job?

A Radiation Effects Engineer evaluates and mitigates the impact of ionizing radiation on electronic components and systems, primarily for aerospace, defense, and space applications. They analyze radiation environments, perform testing, and develop shielding or design strategies to ensure reliable operation in harsh conditions. Their work is crucial for satellites, space probes, and high-altitude electronics where radiation exposure can cause failures or degradation.

What engineers make 500,000 a year?

Highly experienced engineers in specialized fields such as petroleum engineering, aerospace engineering, or certain senior roles in software engineering can earn $500,000 or more annually, often including bonuses and stock options. These positions typically require advanced skills, extensive experience, and often involve leadership or executive responsibilities.

What are the key skills and qualifications needed to thrive in the Radiation Effects Engineer position, and why are they important?

To thrive as a Radiation Effects Engineer, a strong background in physics, electrical engineering, or a related field, alongside expertise in radiation effects on electronic systems, is typically required. Familiarity with simulation tools such as SPICE, radiation test equipment, and industry standards like MIL-STD-883 or ESA standards, as well as relevant certifications like IEEE, is essential. Strong analytical thinking, problem-solving abilities, and effective communication are key soft skills for success in multidisciplinary teams. These competencies ensure effective assessment and mitigation of radiation risks, which are critical for the reliability and safety of aerospace and electronic systems.

What does a radiation effects engineer do?

A radiation effects engineer designs and tests electronic components and systems to ensure they can withstand radiation exposure, often for aerospace, military, or nuclear applications. They analyze radiation interactions, perform simulations, and develop mitigation strategies, frequently using specialized tools and adhering to safety standards.

What are some typical challenges faced by Radiation Effects Engineers on the job?

Radiation Effects Engineers often encounter the challenge of accurately predicting how electronic components will respond to various forms of radiation, particularly in space or nuclear environments. Staying updated with evolving standards and ensuring compliance with stringent testing protocols can be demanding. Additionally, they must frequently collaborate with design teams, test engineers, and clients to integrate radiation-hardened solutions efficiently into complex systems. Addressing unexpected test results or failures requires both rigorous analytical skills and adaptability, making the role both technically demanding and intellectually rewarding.

What engineers make 300,000 a year?

Senior engineers in specialized fields such as petroleum, aerospace, or software engineering can earn $300,000 or more annually, especially with extensive experience, advanced skills, and leadership roles. Certain roles in high-demand industries or with significant responsibilities, certifications, and geographic locations may also contribute to higher compensation levels.
Infographic showing various Radiation Effects Engineer job openings in Michigan as of July 2026, with employment types broken down into 100% Full Time. Highlights an 100% In-person job distribution.
Electrical Engineer

Electrical Engineer

Orbion Space Technology Inc

Houghton, MI • On-site

Full-time

Medical, Dental, Vision, Retirement, PTO

Re-posted 5 days ago


Job description

Description:

Orbion Space Technology is looking for an Electrical Engineer to join our team in Houghton, Michigan! The Engineer will work with Orbion’s electrical R&D team, contract manufacturing partners, manufacturing, and test engineering teams to support current products and develop state of the art electronics hardware for spacecraft electric propulsion systems.


RESPONSIBILITIES

  • Drive conceptual design, architecture trades, and requirements for the formulation of novel spacecraft electronics.
  • Create and support electrical designs throughout entire product lifecycle including part selection, schematic capture, board layout, manufacture, and test.
  • Collaborate with analysts to develop parts stress, thermal, radiation effects, and vibroacoustic analyses for your designs.
  • Drive the development, planning, and execution of risk-reduction, acceptance, and qualification test campaigns.
  • Create and review documentation (e.g. test plans, test procedures, work instructions, electrical schematics).
  • Incorporate Design-for-Manufacture (DFM) or Design-For-Test (DFT) principles as you guide new designs through development, first article builds, and volume-production.
  • Utilize manufacturing test data and trends to drive improved design requirements.
  • Collaborate with Manufacturing on the development and procurement of special fixturing or test equipment to support manufacturing and test operations.
  • Lead product failure investigations in an integrated product team environment driving necessary changes to design, manufacturing, or test.
  • Perform other duties as assigned.

MINIMUM REQUIREMENTS

  • Must meet definition of a US Person
  • Bachelor’s degree in electrical engineering, computer engineering, or similar from an ABET accredited program.
  • 2+ years’ experience developing electronic hardware for space, aerospace, automotive, or similar high reliability applications.
  • Strong interpersonal skills and ability to work in a fast-paced team environment with minimal supervision.
  • Strong hands-on development experience with at least two of the following: analog circuit design (filters, amplifiers, etc.), digital/FPGA design, power electronics (switching converters, linear regulators, magnetics, etc.), or digital peripherals (memory arrays, ADCs, DACs, etc.).
  • Demonstrated proficiency using PCB design software (e.g. Altium) and circuit simulation tools (e.g. SPICE).
  • Proficiency with typical electrical test equipment – DMMs, oscilloscopes, logic analyzers, loads, etc.
  • Demonstrated hands-on electronics skills including soldering, rework, polymerics, or cable/harness fab.
  • Familiarity with the electrical engineering product lifecycle, ranging from requirements development through parts selection, design, manufacture, test, and operations.
  • Willingness to travel on occasion (10%).

PREFERRED QUALIFICATIONS

  • 5+ years’ experience developing electronic hardware for space, aerospace, automotive, or similar high-reliability applications.
  • Experience with qualification and acceptance testing of electronics for extreme environments (e.g. TVAC, shock, vibe, etc.).
  • Experience with space radiation effects on electronics.
  • Experience with EMI/EMC design principles and testing (e.g. MIL-STD-461).
  • Experience with EEE Parts & Reliability Engineering, which may include: high-reliability part selection, derating, up screening, reliability analysis, and familiarity with industry standards/best practices such as EEE-INST-002, MIL-HDBK-217, AEC-QXXX, etc.
  • Familiarity with Design-For-Manufacture (DFM) or Design-For-Test (DFT) principles.
  • Familiarity with NASA or IPC workmanship standards such as J-STD, 8739.X, or WHMA-A-620.

PHYSICAL REQUIREMENTS

  • Prolonged periods of standing on concrete surfaces and at times, sitting at a desk and working on a computer
  • Must be able to lift/carry up to 40 pounds loads from floor level to chest level
  • Frequently move about office to access file cabinets, inventory, office machinery, etc.
  • Manual dexterity to evaluate, install, and modify equipment
  • Fine motor skills required for minute adjustments or counting small items

COMPENSATION/BENEFITS: Enjoy a very competitive starting salary based on your knowledge and experience. In addition to the excitement of making monumental changes to the aerospace industry, employees enjoy a flexible work schedule, company paid health insurance, dental, vision, prescription drug coverage, paid time off (vacation, paid holidays, sick days), contribution matching retirement plan, and short-term disability coverage. The position is full time and located in Houghton, MI. Relocation assistance is available.

All qualified applicants will receive consideration for employment without regard to sex, gender identity, sexual orientation, race, color, religion, national origin, disability, protected veteran status, age, or any other characteristic protected by state or local law.

Requirements: