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Electrical Engineer Robotics Jobs in Raleigh, NC

... Robot Framework, Python, Selenium, or similar automation platforms. • Utilize Hardware-in-the ... Preferred Qualifications • Bachelor's degree in Electrical Engineering, Electronics Engineering ...

... robotics, mobility, healthcare, energy and data centers. With revenue of more than $11 billion in ... Must have a Master's degree in Electrical Engineering, Computer Engineering, Electronics and ...

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Electrical Engineer Robotics information

See Raleigh, NC salary details

$49.1K

$108K

$163.3K

How much do electrical engineer robotics jobs pay per year?

As of Jul 15, 2026, the average yearly pay for electrical engineer robotics in Raleigh, NC is $107,990.00, according to ZipRecruiter salary data. Most workers in this role earn between $80,700.00 and $128,300.00 per year, depending on experience, location, and employer.

What is an Electrical Engineer Robotics job?

An Electrical Engineer in Robotics designs, develops, and maintains the electrical systems that power and control robots. They work on circuit design, sensor integration, motor control, and embedded systems to ensure seamless robotic operation. This role often involves collaborating with mechanical and software engineers to create efficient and reliable robotic systems. Industries like manufacturing, healthcare, automation, and aerospace rely on these engineers to improve robotic performance and functionality. Strong skills in electronics, programming, and control systems are essential for success in this field.

Can I make 200k as an electrical engineer?

Electrical engineers, including those working in robotics, can earn $200,000 or more annually, especially with advanced skills, experience, and in high-demand industries or senior roles. Salaries vary based on location, specialization, certifications, and company size, with senior engineers and those in managerial or specialized positions more likely to reach or exceed this level.

What engineers make $500,000?

Senior electrical engineers, especially those specializing in robotics, automation, or working in high-demand industries like aerospace or defense, can reach or exceed a $500,000 annual salary with experience, advanced skills, and leadership roles. Achieving this level often requires extensive expertise, advanced certifications, and sometimes executive or consulting positions.

What engineers make $300,000 a year?

Senior electrical engineers working in robotics, especially those with advanced skills in automation, control systems, and embedded design, can reach or exceed a $300,000 annual salary, particularly in high-demand industries or with extensive experience and certifications. Such roles often involve leadership responsibilities, specialized expertise, and working in competitive or high-tech environments.

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

To thrive as an Electrical Engineer Robotics, you need a solid understanding of circuit design, control systems, embedded programming, and robotics integration, typically backed by a relevant engineering degree. Familiarity with CAD software, PLC programming, microcontrollers, and certifications such as Professional Engineer (PE) or robotics-specific credentials is highly beneficial. Strong problem-solving abilities, collaboration, and effective communication skills help you succeed in multidisciplinary teams. These competencies are essential for designing reliable robotic systems, troubleshooting complex issues, and advancing innovation in dynamic work environments.

What are some typical daily responsibilities for an Electrical Engineer Robotics?

As an Electrical Engineer Robotics, your daily responsibilities often include designing and testing electrical circuits, collaborating with mechanical and software engineers to integrate robotics systems, and troubleshooting issues in prototypes and production units. You may also be involved in programming embedded controllers, conducting simulations, and ensuring that designs comply with industry standards and safety regulations. Regular meetings with project teams and ongoing documentation are common for effective project coordination. This blend of hands-on technical work and teamwork makes each day both varied and engaging.

Can an electrical engineer work in robotics?

Yes, electrical engineers can work in robotics, as the field often involves designing and developing electronic systems, sensors, and control circuits used in robotic systems. Skills in circuit design, embedded systems, and programming are valuable, and many electrical engineers pursue additional training in robotics-specific software and hardware tools. Certification in related areas like control systems or automation can enhance job prospects in this field.
What are the most commonly searched types of Electrical Engineer Robotics jobs in Raleigh, NC? The most popular types of Electrical Engineer Robotics jobs in Raleigh, NC are:
What are popular job titles related to Electrical Engineer Robotics jobs in Raleigh, NC? For Electrical Engineer Robotics jobs in Raleigh, NC, the most frequently searched job titles are:
Infographic showing various Electrical Engineer Robotics job openings in Raleigh, NC as of July 2026, with employment types broken down into 86% Full Time, 10% Part Time, 1% Temporary, 2% Contract, and 1% Nights. Highlights an 96% Physical, 1% Hybrid, and 3% Remote job distribution, with an average salary of $107,990 per year, or $51.9 per hour.
Manufacturing Engineer - Steel Machining Group

Manufacturing Engineer - Steel Machining Group

Aisin Corporation

Durham, NC • On-site

$70K - $90K/yr

Full-time

Re-posted 8 days ago


Aisin rating

6.0

Company rating: 6.0 out of 10

Based on 77 frontline employees who took The Breakroom Quiz

387th of 430 rated machine equipment manufacturers


Job description

Job Title: Production Engineer - Steel Machining Group
Company: AISIN North Carolina
Department: Engineering
Location: Durham, NC
Position Summary
The Production Engineer, Steel Machining Group, will support manufacturing by maintaining the machining process. This role will troubleshoot and provide engineering solutions to the lines as well as the shop floor. Furthermore, this position monitors different aspects of product development and continually strives to improve the way manufacturing operates. This is a hands-on position where the bulk of the time will be spent on the floor and the manufacturing area, providing support to production.
Position Responsibilities
The incumbent is expected to perform the following functions that the company has determined are essential to this position:
  • Plan and install machinery and equipment for new or re-tooled product lines.
  • Troubleshoot equipment and process issues that occur on the manufacturing floor.
  • Implement design and process changes to increase equipment and manufacturing efficiency.
  • Root cause analysis and countermeasure of quality issues.
  • Continuous improvement of quality and cost through machine, jig, and process improvements.
  • Design, specify and implement these improvements.
  • Line support to repair/improve machines.
  • Responsible for ensuring that new equipment is properly installed and ready for quality production.
  • Accurate planning and budget development for investments and tooling for new programs.
  • Create documentation for changes to processes and equipment.
  • Implement kaizens to improve manufacturing metrics, including but not limited to Availability and Labor Reductions

Required Skills and Abilities
Essential Skills and Experience:
  • Strong knowledge of machining equipment; CNC Lathes, CNC Mills, Grinders, Hobbing, Robots, Collaborative robots, Laser marking, Welding, etc.
  • Demonstrated experience with PFMEAs, Statistical probability, and root cause analysis.
  • Familiarity with robotics and AutoCAD.
  • Keen trouble shooting, problem solving and multi-tasking ability within an engineering role.

Education/Training/Certifications
  • BS, Engineering - Mechanical, Electrical or related area of study

Travel Requirements
  • Approximately 0 %
  • Must be willing and available to travel to such locations and with such frequency as is necessary and desirable to meet business needs.

Work Environment Requirements
With reasonable accommodation:
  • Must be able to operate a personal computer, telephone, and other office equipment.
  • Must perform job duties onsite, when necessary, except those duties that are customarily or by their nature performed offsite (for example, offsite customer visits).
  • Must be able to work effectively in a fast-paced environment.
  • Must be able to work on multiple assignments at once, and complete assignments within deadline and budget (if applicable) with satisfactory quality.
  • Must be able to operate as an effective team member.
  • Must be committed to a high standard of safety and be willing and able to comply with all safety laws and all company safety policies.

Attendance/Work Hour Requirements
  • Must maintain an acceptable attendance record.
  • Must be willing and available to work weekends and holidays as necessary and desirable to meet business needs.

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