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Robot Programmer Jobs in Michigan (NOW HIRING)

COMAU Robot Programmer / Automation Technician JOB SUMMARY The COMAU Robot Programmer / Automation Technician is responsible for supporting and maintaining automated robotic welding systems within a ...

KUKA Robot Programmer / Automation Technician JOB SUMMARY The KUKA Robot Programmer / Automation Technician is responsible for supporting and maintaining automated robotic welding systems within a ...

COMAU Robot Programmer / Automation TechnicianJOB SUMMARY The COMAU Robot Programmer / Automation Technician is responsible for supporting and maintaining automated robotic welding systems within a ...

Execute robot simulation or offline programming using tools such as RoboCAD or RobotStudio. * Handle wiring tasks, breaker panel work, and component installations. Leadership & Team Collaboration

Execute robot simulation or offline programming using tools such as RoboCAD or RobotStudio. * Handle wiring tasks, breaker panel work, and component installations. Leadership & Team Collaboration

Robot Programmer Trainee

Troy, MI ยท On-site

$17.50 - $35/hr

As a Robot Programmer you will be responsible for setup, troubleshooting, debugging and preparation of robots to customer specifications. Creating robot programs and interfacing with the PLC and any ...

Robot Programmer Trainee

Troy, MI ยท On-site

$17.50 - $35/hr

As a Robot Programmer you will be responsible for setup, troubleshooting, debugging and preparation of robots to customer specifications. Creating robot programs and interfacing with the PLC and any ...

FANUC 3DV Robot Programmer / TechnicianPosition Overview GableTek is seeking experienced FANUC 3DV Robot Programmers/Technicians to support automated manufacturing and production environments. This ...

FANUC 3DV Robot Programmer / Technician Position Overview GableTek is seeking experienced FANUC 3DV Robot Programmers/Technicians to support automated manufacturing and production environments. This ...

Perform basic offline programming using RoboCAD/Robot Studio. TCP Verification, I/O Simulation, Move Creation/Modification, Zone Setups. * Intermediate weld troubleshooting for all welding ...

Perform basic offline programming using RoboCAD/Robot Studio. TCP Verification, I/O Simulation, Move Creation/Modification, Zone Setups. * Intermediate weld troubleshooting for all welding ...

Yaskawa Motoman Robot Programmer Locations: Novi, MI or Clinton Township, MI (must be open to travel for installations) Company Overview: GableTek is a leading provider of industrial automation ...

Yaskawa Motoman Robot Programmer Locations: Novi, MI or Clinton Township, MI (must be open to travel for installations) Company Overview: GableTek is a leading provider of industrial automation ...

The Automation Robotics Engineer will provide technical support for the design, development, and implementation of automated manufacturing systems. This individual primary responsibilities include ...

The Automation Robotics Engineer will provide technical support for the design, development, and implementation of automated manufacturing systems. This individual primary responsibilities include ...

The Automation Robotics Engineer will provide technical support for the design, development, and implementation of automated manufacturing systems. This individual primary responsibilities include ...

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Robot Programmer information

See Michigan salary details

$14

$32

$46

How much do robot programmer jobs pay per hour?

As of Jul 13, 2026, the average hourly pay for robot programmer in Michigan is $32.15, according to ZipRecruiter salary data. Most workers in this role earn between $26.59 and $37.69 per hour, depending on experience, location, and employer.

What does a Robot Programmer do?

A Robot Programmer is responsible for creating, testing, and implementing the software that controls industrial and commercial robots. They write code to instruct robots on tasks such as assembly, welding, painting, or material handling. Robot Programmers work closely with engineers and production teams to ensure robots operate efficiently and safely within manufacturing environments. Their work often involves troubleshooting, optimizing existing programs, and integrating new robotic systems into workflows.

Is robotics a dead field?

Robotics is an active and growing field with applications in manufacturing, healthcare, logistics, and research. Robot programmers are in demand to develop, test, and maintain automation systems, often requiring skills in programming languages like Python or C++ and familiarity with robotic hardware and sensors.

What Does a Robot Programmer Do?

The job duties of a robot programmer include working to write, test, and modify programs that direct the actions of robotic equipment. As a robot programmer, your responsibilities typically consist of using robotic software to create directions for manufacturing or industrial applications. You analyze drawings, blueprints, and manufacturing or assembly requirements before programming the equipment. You may also need to physically set up and place the robot in the workspace, test your program before beginning work, and monitor progress to ensure quality during the production run or another process.

How to become a robot programmer?

To become a robot programmer, you typically need a bachelor's degree in robotics, computer science, or a related field. Gaining experience with programming languages such as C++ or Python, understanding robotic systems, and learning to use programming environments like ROS are essential. Certifications in robotics or automation can also enhance job prospects.

Is robot programming a good career?

Robot programming is a growing field that involves developing software to control robotic systems, often requiring knowledge of programming languages like Python or C++ and familiarity with automation tools. It offers opportunities in manufacturing, logistics, and research, with a demand for technical skills and problem-solving abilities. The career can be stable and well-paying for those with relevant training and experience.

What are some common challenges Robot Programmers face when integrating new robots into existing manufacturing systems?

Robot Programmers often encounter challenges such as ensuring compatibility between new robots and legacy equipment, optimizing robot paths for efficiency, and minimizing downtime during integration. Coordinating closely with engineers, operators, and IT specialists is essential to address communication protocols, safety requirements, and production schedules. Adapting to rapidly evolving technologies and troubleshooting unexpected issues are also key aspects of the role, making strong problem-solving skills and teamwork crucial for success.

What is the difference between Robot Programmer vs Robot Technician?

AspectRobot ProgrammerRobot Technician
CredentialsTypically requires a degree in robotics, engineering, or computer scienceOften requires technical diploma or associate degree in robotics or electronics
Work EnvironmentDesigning, coding, and testing robot programs in labs or manufacturing settingsMaintaining, troubleshooting, and repairing robots on the production floor
Employer & Industry UsageUsed mainly in automation, manufacturing, and robotics developmentCommon in manufacturing plants, assembly lines, and maintenance services

Robot Programmers focus on creating and optimizing robot software, while Robot Technicians handle the installation, maintenance, and repair of robotic systems. Both roles are essential in automation industries but differ in their primary responsibilities and required skills.

How much do robot programmers make?

Robot programmers typically earn between $60,000 and $100,000 annually, depending on experience, location, and industry. Skilled programmers with knowledge of robotics software, automation tools, and programming languages like Python or C++ tend to have higher salaries.

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

To thrive as a Robot Programmer, you need strong programming skills (such as in Python, C++, or proprietary robot languages), a solid understanding of robotics engineering, and typically a degree in computer science, engineering, or a related field. Familiarity with robotic control systems, industrial automation software (like ROS or PLCs), and relevant certifications are often required. Analytical thinking, problem-solving abilities, and effective teamwork are essential soft skills for optimizing robotic performance and collaborating with engineering teams. These skills ensure the development, integration, and maintenance of efficient, reliable robotic systems in various industrial applications.
What are popular job titles related to Robot Programmer jobs in Michigan? For Robot Programmer jobs in Michigan, the most frequently searched job titles are:
What cities in Michigan are hiring for Robot Programmer jobs? Cities in Michigan with the most Robot Programmer job openings:
What are popular job titles related to Robot Programmer jobs in MI? For Robot Programmer jobs in MI, the most frequently searched job titles are:
Robot Programmer(COMAU)

Robot Programmer(COMAU)

GABLETEK

Troy, MI โ€ข On-site

Full-time

Re-posted 18 hours ago


Job description

COMAU Robot Programmer / Automation Technician
JOB SUMMARY
The COMAU Robot Programmer / Automation Technician is responsible for supporting and maintaining automated robotic welding systems within a high-volume manufacturing environment. This role focuses on robot troubleshooting, production support, program modifications, weld process optimization, and minimizing equipment downtime. The technician will work with robotic welding cells, automated fixtures, PLC-controlled systems, and related automation equipment to ensure safe and efficient production operations.
RESPONSIBILITIES
  • Provide production support for automated robotic welding cells and robotic manufacturing systems.
  • Troubleshoot and recover COMAU robots from faults, alarms, crashes, and production interruptions while restoring systems to operational status quickly and safely.
  • Modify, optimize, and troubleshoot COMAU robot programs for welding and material handling applications.
  • Perform robot touch-ups, TCP verification, path corrections, and position adjustments.
  • Support robotic applications including MIG welding, resistance welding, projection welding, and pneumatic systems.
  • Diagnose and repair electrical, mechanical, pneumatic, hydraulic, and robotic system issues.
  • Troubleshoot automated welding cells to identify root causes and implement corrective actions that reduce downtime and improve reliability.
  • Read and interpret electrical schematics, blueprints, weld prints, and technical documentation.
  • Troubleshoot and repair:
    • Servo drive systems
    • Motors and encoders
    • Relays and control boards
    • Sensors and safety devices
    • Wiring harnesses and electrical panels
  • Perform minor fixture adjustments, shim modifications, and weld tooling corrections based on manufacturing requirements.
  • Support and maintain communication networks including Ethernet, Remote I/O, and DeviceNet systems.
  • Perform basic offline programming and simulation using COMAU programming software and robotic simulation tools.
  • Support integration and troubleshooting of PLC-controlled automation systems.
  • Assist with robotic startup activities, program validation, and production launches.
  • Ensure compliance with all customer, plant, and safety procedures while working around robotic and automated equipment.
  • Maintain detailed documentation of repairs, troubleshooting activities, and process improvements.
  • Communicate equipment concerns, downtime issues, and shift updates effectively with supervisors and team members.
  • Work independently with minimal supervision while supporting production requirements.
REQUIRED SKILLS & QUALIFICATIONS
  • Experience troubleshooting and programming COMAU robotic systems in an industrial manufacturing environment.
  • Strong understanding of robotic welding processes and welding fundamentals.
  • Knowledge of:
    • Robotics and automation systems
    • Electrical circuitry and controls
    • Pneumatics and hydraulics
    • Industrial mechanics
    • Servo systems and automation components
  • Ability to troubleshoot electrical systems using schematics and prints.
  • Experience with:
    • TCP setup and verification
    • I/O troubleshooting and simulation
    • Program touch-ups and path modifications
    • Weld process troubleshooting
    • Robot recovery procedures
  • Understanding of automated weld fixtures and shimming processes.
  • Familiarity with PLC-controlled manufacturing equipment.
  • Proficient with Microsoft Office applications including Word, Excel, and Outlook.
  • Strong communication and problem-solving skills.
  • Ability to prioritize tasks and respond effectively in a fast-paced production environment.
PREFERRED QUALIFICATIONS
  • Industrial Maintenance, Electrician Journeyman, Mechatronics, or Machine Repair certification.
  • Associate degree in Mechatronics, Robotics, Automation, Electrical Technology, or related field.
  • Previous experience supporting robotic welding systems in automotive or automated manufacturing environments.
  • Experience with offline robotic programming and simulation software.
  • Strong electrical and mechanical troubleshooting background.
WORK ENVIRONMENT / PHYSICAL DEMANDS
  • Frequent exposure to noise, sparks, smoke, heat, dirt, grease, oil, and welding fumes.
  • Regularly works around automated robotic equipment and high-speed production machinery.
  • Exposure to high and low voltage electrical systems.
  • Frequent walking, bending, twisting, lifting, and entering robotic weld cells.
  • Required use of PPE including eye protection, hearing protection, gloves, and cut-resistant equipment.
  • Potential exposure to Arc Flash hazards while working in electrical cabinets and control panels.
BEHAVIORAL EXPECTATIONS
  • Demonstrates accountability, reliability, and strong attention to detail.
  • Maintains a high sense of urgency while supporting production needs.
  • Works effectively both independently and within a team environment.
  • Communicates professionally with supervisors, maintenance personnel, and production teams.
  • Adapts positively to changing production priorities and plant requirements.
  • Maintains strong attendance and dependability.
  • Focuses on continuous improvement, safety, and equipment reliability.