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Robotics Engineer Jobs in Minnesota (NOW HIRING)

Mechatronics & Robotics TechFull-Time/Direct-Hire Opportunity!Job Responsibilities: * Assist in the ... Collaborate with engineering teams to integrate mechatronic components into various systems.

Guide students through the engineering design process, including brainstorming, prototyping, building, testing, and refining their robot. * Support the development and execution of the team ...

Master's degree in electrical engineering, robotics or related field preferred * 5+ years of people management experience * Experience with ROS, Gazebo, Unreal, and Omniverse As a part of the Doosan ...

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Robotics Engineer information

See Minnesota salary details

$28.4K

$103.4K

$165.5K

How much do robotics engineer jobs pay per year?

As of Jul 13, 2026, the average yearly pay for robotics engineer in Minnesota is $103,431.00, according to ZipRecruiter salary data. Most workers in this role earn between $81,800.00 and $124,400.00 per year, depending on experience, location, and employer.

What does a Robotics Engineer do?

A Robotics Engineer designs, builds, and tests robots and robotic systems that are able to perform tasks typically done by humans. They work on integrating hardware and software to create machines that can automate processes in industries such as manufacturing, healthcare, and logistics. Their responsibilities often include researching new technologies, programming robotic systems, troubleshooting issues, and collaborating with other engineers. Robotics Engineers play a key role in advancing automation and improving efficiency and safety in various sectors.

What Does a Robotics Engineer Do?

A robotics engineer designs and often builds robots from their plans and ensures the correct processes are in place for the robot to run properly. They work with their clients to determine costs and design specifications, then they design software systems to control robotic systems; build, configure, and test robots; and automate processes to increase production and precision. Once the robotic system is in place, the robotics engineer helps troubleshoot any problems the clients have with the system.

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

To thrive as a Robotics Engineer, you need a strong background in mechanical engineering, electrical engineering, and computer science, typically backed by a relevant bachelor's or master's degree. Familiarity with programming languages like Python or C++, CAD software, and robotics platforms such as ROS (Robot Operating System) is essential. Problem-solving skills, creativity, and effective teamwork are standout soft skills in this field. These competencies are crucial for designing, building, and refining innovative robotic systems that meet complex technical and user requirements.

What types of projects do Robotics Engineers typically collaborate on with cross-functional teams?

Robotics Engineers often work closely with professionals from software development, mechanical engineering, and electrical engineering to design, build, and test robotic systems. Projects can range from automating manufacturing processes to developing autonomous vehicles or medical robots. Collaboration is essential, as engineers must integrate hardware and software components while ensuring systems meet safety and performance standards. Effective communication and teamwork are key to successfully bringing innovative robotics solutions from concept to reality.

What is the difference between Robotics Engineer vs Mechanical Engineer?

AspectRobotics EngineerMechanical Engineer
Required CredentialsBachelor's in Robotics, Mechanical, Electrical Engineering or related field; certifications in robotics or automationBachelor's in Mechanical Engineering; Professional Engineer (PE) license optional
Work EnvironmentDesigning, testing, and programming robotic systems in labs or manufacturing settingsDesigning and analyzing mechanical systems in various industries, including manufacturing, automotive, aerospace
Industry UsageRobotics companies, automation firms, manufacturingManufacturing, automotive, aerospace, product design

Robotics Engineers focus on designing and developing robotic systems, combining knowledge of mechanical, electrical, and software engineering. Mechanical Engineers have a broader scope, working on mechanical systems across multiple industries. While both roles require engineering degrees, Robotics Engineers often need specialized skills in programming and automation. The choice depends on your interest in robotics and automation versus general mechanical system design.

What are the most commonly searched types of Robotics Engineer jobs in Minnesota? The most popular types of Robotics Engineer jobs in Minnesota are:
What cities in Minnesota are hiring for Robotics Engineer jobs? Cities in Minnesota with the most Robotics Engineer job openings:
Infographic showing various Robotics Engineer job openings in Minnesota as of July 2026, with employment types broken down into 67% Full Time, and 33% Contract. Highlights an 100% In-person job distribution, with an average salary of $103,431 per year, or $49.7 per hour.
Mechanical Engineer - Robotic Weld

Mechanical Engineer - Robotic Weld

Standard Iron

Monticello, MN • On-site

$18.75 - $25.75/hr

Full-time

Posted 13 days ago


Standard Iron rating

7.4

Company rating: 7.4 out of 10

Based on 5 frontline employees who took The Breakroom Quiz


Job description


Standard Iron is a leading U.S.-based manufacturing partner specializing in metal fabrication, complex weldments, custom fuel & hydraulic tanks and architectural metals. With 90+ years of experience and seven advanced facilities across North America, we help our customers solve problems, not just fill orders. Whether you’re launching a new product, improving throughput, or optimizing for cost, we build solutions tailored to your needs.
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No Sponsorships or relocation provided for this role 
Statement of the Job:
Standard Iron is a leading U.S.-based manufacturing partner specializing in metal fabrication, complex weldments, custom fuel & hydraulic tanks and architectural metals. With 90+ years of experience and seven advanced facilities across North America, we help our customers solve problems, not just fill orders. Whether you’re launching a new product, improving throughput, or optimizing for cost, we build solutions tailored to your needs.
Primary Job Focus
This role is heavily focused on robotic weld programming, weld process development, and weld quality optimization. Candidates must bring strong hands-on experience in robotic welding systems and weld parameter development.
Key Responsibilities:
.
  • Develop, program, and optimize robotic welding applications (e.g., FANUC, ABB, Yaskawa/Motoman, KUKA)
  • Perform robot teach pendant and/or offline programming for new and existing weld processes.
  • Establish and validate weld parameters (voltage, amperage, travel speed, wire feed speed, gas composition) to meet quality and productivity targets.
  • Program and optimize other CNC equipment (e.g., laser cutters, turret punches, press brakes, tube benders) using software like SolidWorks, AutoCAD, or nesting programs.
  • Develop, evaluate, and improve manufacturing processes for sheet metal fabrication, including laser cutting, punching, bending, forming, welding, and assembly.
  • Design and validate tooling, fixtures, and jigs to enhance precision and efficiency in fabrication operations.
  • Support New Product Introduction (NPI) by reviewing client designs for manufacturability (DFM), developing weld sequences, tooling requirements, and process documentation.
  • Troubleshoot production issues, perform root cause analysis, and implement corrective actions for quality and process problems. Troubleshoot robotic weld issues related to fit-up, distortion, porosity, spatter, lack of fusion, etc.
  • Analyze production workflows, identify bottlenecks, and implement lean manufacturing principles (e.g., Six Sigma, Kaizen) to reduce waste, improve cycle times, and increase throughput.
  • Collaborate with clients, sales, quality assurance, and production teams to ensure projects meet specifications, quality standards (e.g., ISO 9001/AS9100), and delivery schedules.
  • Contribute to continuous cost reduction initiatives.
  • Ensure compliance with safety regulations, environmental standards, and industry best practices.
  • Lead or participate in capital equipment justification, selection, and implementation projects. Interface with integrators and equipment suppliers for installation, startup, and upgrades of robotic weld cells
  • Train production staff on new processes and maintain accurate documentation for repeatability across contract runs.

Qualifications and Requirements
 
  • Associates or Bachelor’s degree in Welding Technology, Manufacturing Engineering, Mechanical Engineering, or related field (or equivalent experience).
  • 3–7 years of experience in manufacturing engineering, preferably in sheet metal fabrication or contract manufacturing with an emphasis on programming industrial robots for welding applications
  • Strong knowledge of sheet metal processes (e.g., shearing, laser/plasma cutting, forming, MIG/TIG welding, finishing).
  • Proficiency in CAD/CAM software (e.g., SolidWorks, AutoCAD, Nesting software) and ERP/MRP systems.
  • Experience with lean manufacturing tools, process optimization, and quality systems (e.g., PFMEA, control plans).
  • Excellent problem-solving skills with hands-on experience in root cause analysis and continuous improvement.
  • Ability to interpret engineering drawings, GD&T, and weld symbols (AWS standards preferred).
  • Ability to support multiple projects and priorities in a fast-paced manufacturing environment.
  • Familiarity with industry standards (e.g., AWS welding, ASTM materials) is a plus.

Preferred Skills
 
  • Experience with offline programming software (e.g., RoboGuide, RobotStudio, MotoSim, Delmia)
  • Experience with both Fanuc and ABB programming software
  • Knowledge of advanced welding technologies:
  • Vision-guided welding
  • Laser seam tracking
  • Through-arc seam tracking (TAST)
  • Adaptive welding system
  • Familiarity with welding codes and standards (AWS D1.1, ISO standards, etc.)
  • Ability to simulate weld paths, reach, and cycle times virtually.
  • Experience in Lean Six Sigma with a strong problem-solving and continuous improvement mindset
  • Experience in a contract manufacturing or job shop environment with variable production runs.
  • Knowledge of automation and robotics in fabrication.
  • An understanding of Geometric Dimensioning and Tolerancing (GD&T).
  • CAD/CAM experience.

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