2

Remote Power System Study Engineer Jobs in Virginia

Systems Engineer Principal

Chantilly, VA · On-site +1

$160K - $200K/yr

None Potential for Remote Work: ORA_ON_SITE Description SAIC is seeking an experienced ... system-level trade studies to optimize performance Qualifications Required Qualifications: 

Remote Work: No Job Number: R0240584 Location: King George,VA,US Share job via: Share Laser Weapon ... As a Laser Weapon System Test Engineer and Scientist, you understand the power behind complex ...

Produce technical trade studies, architecture recommendations, demonstration plans, and innovation ... systems , or related domains * Experience designing solutions for remote, austere, power ...

New

next page

Showing results 1-20

Remote Power System Study Engineer information

What is the difference between Remote Power System Study Engineer vs Power Systems Analyst?

AspectRemote Power System Study EngineerPower Systems Analyst
CredentialsBachelor's or Master's in Electrical Engineering, relevant certifications (e.g., PE)Bachelor's or Master's in Electrical Engineering or related field, certifications optional
Work EnvironmentRemote or on-site, focused on power system studies and simulationsPrimarily office-based, analyzing power system data and performance
Industry UsageUtility companies, consulting firms, energy sectorUtilities, consulting, energy companies, research institutions

The Remote Power System Study Engineer primarily conducts detailed power system studies, simulations, and analysis to ensure grid stability and reliability. In contrast, the Power Systems Analyst focuses on analyzing existing power system data, performance metrics, and supporting decision-making. Both roles require electrical engineering credentials and often work within similar industries, but their core responsibilities differ in scope and focus.

How does a Remote Power System Study Engineer typically collaborate with utilities and project teams while working offsite?

As a Remote Power System Study Engineer, collaboration is primarily achieved through virtual meetings, shared technical documentation, and cloud-based modeling tools. You'll regularly interact with utility clients, project managers, and fellow engineers to discuss study requirements, review system models, and present findings. Effective communication and proactive scheduling are essential to ensure alignment on project goals and timely delivery of analyses, especially when working across different time zones. Building strong remote relationships and being adaptable with digital collaboration platforms are key to success in this environment.

What does a Remote Power System Study Engineer do?

A Remote Power System Study Engineer is responsible for analyzing and evaluating electrical power systems from a remote location. Their work involves performing studies such as load flow, short circuit, arc flash, and stability assessments to ensure the reliable and safe operation of power systems. They use specialized software to model electrical networks and identify potential issues or improvements. By working remotely, they collaborate with clients and teams through digital tools to deliver technical reports and solutions for projects in industries like utilities, manufacturing, and renewable energy.

What are the key skills and qualifications needed to thrive as a Remote Power System Study Engineer, and why are they important?

To thrive as a Remote Power System Study Engineer, you need a solid background in electrical engineering, power systems analysis, and a relevant engineering degree, often with a Professional Engineer (PE) license. Familiarity with specialized software such as PSS®E, ETAP, or DIgSILENT PowerFactory, and experience interpreting grid codes and standards, is typically required. Strong analytical thinking, effective communication, and the ability to collaborate remotely with cross-functional teams are essential soft skills. These competencies ensure accurate system studies, compliance with industry regulations, and efficient problem-solving for reliable power system operations.
What are the most commonly searched types of Power System Study Engineer jobs in Virginia? The most popular types of Power System Study Engineer jobs in Virginia are:
What job categories do people searching Remote Power System Study Engineer jobs in Virginia look for? The top searched job categories for Remote Power System Study Engineer jobs in Virginia are:
What cities in Virginia are hiring for Remote Power System Study Engineer jobs? Cities in Virginia with the most Remote Power System Study Engineer job openings:
Principal Electrical Systems Engineer

Principal Electrical Systems Engineer

TalentRemedy

Herndon, VA • On-site, Remote

$170K - $180K/yr

Full-time

Posted 16 days ago


Job description

We are seeking a Principal Electrical Systems Engineer to join our Herndon, VA team and lead the development of advanced electro-optical and laser-based systems supporting NASA, DoD, and commercial space missions.

In this role, you will serve as the technical lead for the electrical architecture of complex aerospace systems, guiding programs from concept development through integration, test, qualification, and mission deployment. You will work closely with multidisciplinary teams of optical, mechanical, software, and systems engineers to develop next-generation laser, sensing, and remote sensing technologies for demanding spaceflight applications.

This position is ideal for an experienced engineer who enjoys solving challenging technical problems, defining system architectures, mentoring engineers, and helping transition advanced research into operational aerospace systems.

Responsibilities

  • Lead the electrical architecture, design, and technical execution of complex electro-optical, laser, and sensing systems for spaceflight and defense applications.
  • Define system-level electrical requirements, interfaces, performance budgets, and verification strategies.
  • Provide technical leadership for the development of high-reliability electronics, including power systems, control electronics, data acquisition systems, signal conditioning, and system interconnects.
  • Lead electrical subsystem integration activities and ensure successful interface compatibility across multidisciplinary systems.
  • Lead system integration, verification, validation, troubleshooting, and qualification activities.
  • Support customer interactions, technical proposals, design reviews, and program execution.
  • Mentor and develop junior and mid-level engineers while helping establish engineering best practices.
  • Participate in laboratory testing, environmental testing, and field demonstrations as required.
  • Support multiple concurrent R&D and production programs spanning NASA, DoD, and commercial space customers.

Required Qualifications

  • BSEE required; MSEE preferred.
  • 15+ years of experience developing complex aerospace, defense, or spaceflight electrical systems.
  • Demonstrated experience serving as the technical lead, principal engineer, or system architect for complex electrical systems.
  • Direct experience developing, integrating, testing, or qualifying electronics for spaceflight applications, including satellites, spacecraft, launch vehicles, scientific instruments, human-rated systems, or other high-reliability aerospace platforms.
  • Strong background in system-level electrical architecture, integration, verification, troubleshooting, and qualification.
  • Experience with power distribution, control electronics, instrumentation, mixed-signal systems, and electrical interfaces.
  • Experience working within multidisciplinary engineering teams and leading technical decision-making.
  • Ability to work hands-on in laboratory environments and support system integration and test activities.

Preferred Qualifications

  • MSEE or PhD in Electrical Engineering.
  • Experience supporting NASA, DoD, NRO, SDA, Space Force, or commercial space programs.
  • Experience with radiation-tolerant, radiation-hardened, or other high-reliability electronics technologies.
  • Familiarity with spaceflight design standards, mission assurance processes, and environmental qualification testing.
  • Experience with electro-optical systems, laser systems, remote sensing, or LIDAR technologies.
  • Experience leading technical teams and mentoring engineers.
  • Active security clearance or ability to obtain one.