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Full Time Power System Analysis Jobs (NOW HIRING)

Power System Engineer Job Location: Irvine, CA Job Type: Full-time / Hybrid Position Summary ETAP ... Perform power flow, short circuit analysis and protection & coordination to evaluate system impacts

Power System Engineer Job Location: Irvine, CA Job Type: Full-time / Hybrid Position Summary ETAP ... Perform power flow, short circuit analysis and protection & coordination to evaluate system impacts

Job Type Full-time Description The Power Systems Study Engineer is responsible for performing and ... flash hazard analysis. This role develops system models, gathers and validates field data ...

Senior Power Systems Engineer

Knoxville, TN · On-site

$99K - $136K/yr

The ideal candidate brings strong hands-on power system analysis experience, understands how technical decisions translate into real-world operational and business outcomes, and is comfortable ...

Engineering & Science Job Schedule: Full time Remote: No The opportunity Kickstart your career in ... This junior role is an exciting opportunity to build a strong foundation in power system analysis ...

Engineering & Science Job Schedule: Full time Remote: No The opportunity Kick-start your career in ... This junior role is an exciting opportunity to build a strong foundation in power system analysis ...

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Full Time Power System Analysis information

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$56K

$117.7K

$179.5K

How much do full time power system analysis jobs pay per year?

As of Jul 11, 2026, the average yearly pay for full time power system analysis in the United States is $117,702.00, according to ZipRecruiter salary data. Most workers in this role earn between $98,000.00 and $134,000.00 per year, depending on experience, location, and employer.

What is the difference between Full Time Power System Analysis vs Power System Engineer?

AspectFull Time Power System AnalysisPower System Engineer
CredentialsBachelor's or Master's in Electrical Engineering, certifications like PE or Power System Analysis certificationsBachelor's or Master's in Electrical Engineering, PE license often preferred
Work EnvironmentUtility companies, consulting firms, energy sector; primarily office-based with some field visitsUtility companies, engineering firms; office and field work involved
Industry UsageFocuses on analyzing power system stability, load flow, and reliabilityDesigns, develops, and maintains power systems, including analysis and troubleshooting

Full Time Power System Analysis roles primarily focus on analyzing and ensuring the stability and reliability of power systems, often requiring specialized certifications. Power System Engineers, while sharing similar credentials, are more involved in designing and implementing power systems. Both roles are vital in the energy industry and often overlap in work environment and employer usage.

What are the key skills and qualifications needed to thrive as a Full Time Power System Analyst, and why are they important?

To thrive as a Full Time Power System Analyst, you need a strong background in electrical engineering, particularly in power systems, supported by a relevant degree and knowledge of industry standards. Proficiency in specialized software such as PSS®E, ETAP, or PowerWorld, as well as familiarity with SCADA systems and possibly a Professional Engineer (PE) license, is typically required. Analytical thinking, problem-solving, and effective communication are essential soft skills for interpreting complex data and collaborating with multidisciplinary teams. These skills and qualifications are critical for ensuring reliable and efficient operation, planning, and analysis of electrical power systems.

What is a Full Time Power System Analyst?

A Full Time Power System Analyst is a professional who works on analyzing, monitoring, and optimizing electrical power systems for utilities, engineering firms, or large organizations. Their responsibilities include studying power flow, stability, reliability, and protection of electrical grids. They use specialized software to model electrical networks, identify potential issues, and recommend solutions to improve system efficiency and safety. This role often involves working with cross-functional teams, interpreting technical data, and ensuring compliance with industry standards.

What are some common challenges faced by professionals in full-time power system analysis roles, and how can they be addressed?

Professionals in full-time power system analysis often encounter challenges such as integrating renewable energy sources, maintaining system stability, and keeping up with evolving industry standards and technologies. Addressing these issues requires strong analytical skills, familiarity with simulation software like PSS®E or PowerWorld, and ongoing professional development. Collaborative teamwork with engineers, utility operators, and regulatory bodies is essential to find innovative solutions and ensure reliable power delivery.
More about Full Time Power System Analysis jobs
What cities are hiring for Full Time Power System Analysis jobs? Cities with the most Full Time Power System Analysis job openings:
What are the most commonly searched types of Power System Analysis jobs? The most popular types of Power System Analysis jobs are:
What states have the most Full Time Power System Analysis jobs? States with the most job openings for Full Time Power System Analysis jobs include:
What job categories do people searching Full Time Power System Analysis jobs look for? The top searched job categories for Full Time Power System Analysis jobs are:
Infographic showing various Full Time Power System Analysis job openings in the United States as of July 2026, with employment types broken down into 87% Full Time, 11% Part Time, and 2% Contract. Highlights an 83% Physical, 3% Hybrid, and 14% Remote job distribution, with an average salary of $117,702 per year, or $56.6 per hour.
Power Systems Engineer ---Remote

Power Systems Engineer ---Remote

DELTASOFT SOLUTIONS LLC

Newtown, PA • On-site

$65 - $70/hr

Full-time

Medical, PTO

Re-posted 8 days ago


Job description

Benefits:
  • Employee discounts
  • Health insurance
  • Paid time off

Power Systems Engineer ---Remote

Job Summary

We are seeking a highly motivated Power Systems Engineer to support an innovation initiative focused on substantially accelerating Transmission and Distribution planning tools using NVIDIA GPU technology. This role will be responsible for modeling and converting existing Transmission and Distribution network models currently developed in CYME and GE PSLF into pandapower-based Python models, working with NVIDIA resources and performing steady state powerflow analysis for these models using GPUs and CUDA libraries.
The ideal candidate combines strong power systems fundamentals, hands-on experience with planning tools, and programming skills, and is excited to work at the intersection of power engineering and high-performance computing.
Key Responsibilities

  • Develop Transmission and Distribution network models using pandapower (Python)
  • Convert and validate existing network models from CYME and GE PSLF into pandapower equivalents
  • Ensure electrical fidelity between source models and converted models (topology, parameters, limits, results)
  • Work with NVIDIA engineers in developing Powerflow analysis solution using GPUs and CUDA libraries
  • Collaborate with power systems engineers, data scientists, and GPU/HPC specialists to enable GPU-accelerated simulations
  • Assist in benchmarking CPU vs GPU performance for power system studies
  • Document modeling assumptions, validation results, and technical findings for internal and executive audiences

Required Qualifications

  • Bachelors or Masters degree in Electrical Engineering (Power Systems focus preferred)
  • Strong foundation in power system analysis, including:
    • Power flow (AC/DC)
    • Transmission and Distribution modeling
    • Per-unit systems and network parameters
  • Hands-on experience with power system planning tools
  • Programming experience

Preferred Qualifications

  • Experience with Transmission Planning and/or Distribution Planning studies
  • Understanding of power system matrices (Ybus, Jacobian, PTDF/LODF)
  • Strong written and verbal communication skills, with the ability to explain technical concepts clearly
  • Familiarity with pandapower or other open-source power system frameworks (strong plus)
  • Ability to work with large-scale network models and complex datasets

Thanks & Regards
Bhanu Prakash
DeltaSoft Solutions
bhanu.prakash@deltasoftgroup.com