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Automation Manufacturing Jobs in Wisconsin (NOW HIRING)

Manufacturing Automation Engineer

Sheboygan, WI · On-site

$87K - $112K/yr

The Manufacturing Automation Engineer is a hands-on technical expert responsible for optimizing manufacturing processes through automation. This individual will collect and analyze operational data ...

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Automation Manufacturing information

See Wisconsin salary details

$46.4K

$101.4K

$137.8K

How much do automation manufacturing jobs pay per year?

As of Jul 18, 2026, the average yearly pay for automation manufacturing in Wisconsin is $101,397.00, according to ZipRecruiter salary data. Most workers in this role earn between $87,300.00 and $112,000.00 per year, depending on experience, location, and employer.

How do professionals in Automation Manufacturing typically collaborate with cross-functional teams to implement new automated systems?

In Automation Manufacturing, professionals regularly work alongside engineers, production staff, and quality assurance teams to design and integrate new automated solutions. This collaboration often involves participating in project meetings, sharing technical requirements, and troubleshooting issues together during system installation and testing. Effective communication and problem-solving skills are essential, as these teams must ensure that automation aligns with production goals, safety standards, and cost constraints. Such teamwork not only streamlines implementation but also helps identify opportunities for process improvement and innovation.

What is the difference between Automation Manufacturing vs Manufacturing Technician?

AspectAutomation ManufacturingManufacturing Technician
CredentialsTechnical certifications, associate degrees in automation or roboticsHigh school diploma or technical training, certifications vary
Work EnvironmentFactories with automated systems, control roomsProduction floors, assembly lines
Industry UsageDesign, program, and maintain automated equipmentOperate and troubleshoot manufacturing machinery

Automation Manufacturing professionals focus on developing, programming, and maintaining automated systems used in production. Manufacturing Technicians primarily operate and troubleshoot machinery on the factory floor. While both roles work in manufacturing environments, Automation Manufacturing involves more technical skills related to automation technology, whereas Manufacturing Technicians focus on hands-on equipment operation.

What is automation manufacturing?

Automation manufacturing refers to the use of various control systems, such as computers or robots, and information technologies to handle different processes and machinery in an industry. This approach is designed to increase the efficiency, quality, and consistency of production while reducing human intervention and operational costs. Automated manufacturing can include everything from assembly lines and packaging to quality control and logistics. It is widely used in industries such as automotive, electronics, pharmaceuticals, and food processing.

Is AI taking over manufacturing jobs?

Automation manufacturing jobs are increasingly supported by AI and robotics, which can improve efficiency and safety. However, many roles still require human oversight, problem-solving, and technical skills, making complete job displacement unlikely in the near term.

What is automation in the manufacturing industry?

Automation in manufacturing involves using technology such as robotics, control systems, and software to perform production tasks with minimal human intervention. Automation manufacturing jobs often require knowledge of machinery, programming, and troubleshooting to improve efficiency and safety in production processes.

What does an automation engineer do in manufacturing?

An automation engineer in manufacturing designs, develops, and maintains automated systems and processes to improve production efficiency and quality. They work with control systems, robotics, and programming languages like PLCs and SCADA, often requiring knowledge of electrical and mechanical systems. Their role involves troubleshooting, system integration, and ensuring safety standards are met.

What are some examples of automated manufacturing?

Automated manufacturing involves using machines and robotics to perform production tasks with minimal human intervention. Examples include robotic arms assembling cars, CNC machines cutting and shaping materials, and conveyor systems transporting products through different manufacturing stages. These systems improve efficiency, precision, and safety in manufacturing environments.

What are the key skills and qualifications needed to thrive in Automation Manufacturing, and why are they important?

To thrive in Automation Manufacturing, you need a solid background in industrial engineering, robotics, and process optimization, often supported by a degree in engineering or a related field. Familiarity with programmable logic controllers (PLCs), SCADA systems, and certifications such as Six Sigma or Lean Manufacturing are typically required. Strong problem-solving abilities, attention to detail, and effective teamwork are essential soft skills for this role. These competencies are crucial for ensuring efficient production processes, minimizing downtime, and continually improving manufacturing performance.
What are popular job titles related to Automation Manufacturing jobs in Wisconsin? For Automation Manufacturing jobs in Wisconsin, the most frequently searched job titles are:
What job categories do people searching Automation Manufacturing jobs in Wisconsin look for? The top searched job categories for Automation Manufacturing jobs in Wisconsin are:
Infographic showing various Automation Manufacturing job openings in Wisconsin as of July 2026, with employment types broken down into 7% Internship, 78% Full Time, and 15% Contract. Highlights an 93% In-person, and 7% Remote job distribution, with an average salary of $101,397 per year, or $48.7 per hour.
Automation Manufacturing Engineer (GB)

Automation Manufacturing Engineer (GB)

ARMORWORKS ENTERPRISES INC

Green Bay, WI • On-site

$84K - $108K/yr

Other

Posted 9 days ago


Job description

THIS POSITION IS LOCATED IN GREEN BAY, WISCONSIN
Basic Job Purpose:

The Automation Manufacturing Engineer is responsible for identifying, developing, and implementing automation solutions that improve operational efficiency and productivity thus improving safety and quality throughout the manufacturing facility. This role will lead the evaluation, integration, and optimization of Automated welding and finishing platforms with a secondary emphasis on automated material handling systems while driving continuous improvement initiatives across Operations and manufacturing operations.

Working closely with operations and production supervisors, as well as all engineering teams, the engineer will identify process bottlenecks, reduce manual labor requirements, improve consistency, and deploy automation technologies that support scalable growth and operational excellence.

Assignment of Functions and Responsibilities:

Robotics & Automation Leadership

  • Lead the development, implementation, and optimization of Automated welding and grinding, robotic sanding, and automated finishing systems.
  • Identify automation opportunities within welding, finishing, assembly, and material handling operations.
  • Develop automation roadmaps and business cases that improve throughput, quality, ergonomics, and labor utilization.
  • Program, troubleshoot, and optimize robotic systems and peripheral equipment to maximize performance and uptime.
  • Collaborate with equipment vendors and integrators on automation projects from concept through production launch.
  • Evaluate and implement vision systems, sensors, tooling, fixturing, positioners, conveyors, and machine-tending solutions.
  • Support offline programming and process validation for robotic welding and finishing applications.
  • Lead automation-related capital equipment projects, including equipment selection, justification, installation, and commissioning.

Welding & Finishing Process Optimization

  • Improve robotic and manual welding processes through fixture design, process control, and standardization.
  • Analyze finishing operations and implement technologies that reduce cycle times and improve surface quality.
  • Support Design for Manufacturability (DFM) initiatives to improve automation compatibility of products and assemblies.

Continuous Improvement

  • Lead Lean Manufacturing and Continuous Improvement initiatives focused on waste reduction, labor efficiency, quality improvement, and throughput gains.
  • Utilize root cause analysis and data-driven problem solving to address recurring production challenges.
  • Monitor and improve key performance indicators including:
    • OEE
    • Throughput
    • Cycle Time
    • Downtime
    • Scrap and Rework
    • Labor Efficiency
  • Facilitate Kaizen events and process improvement projects throughout the facility.
  • Develop standardized work instructions and best practices for automated processes.

Cross-Functional Support

  • Work directly with welders, fabricators, operators, maintenance technicians, and supervisors to identify and implement improvements.
  • Train production personnel on current cobot, and future robotic systems, automated equipment, and process changes.
  • Collaborate with Operations teams to improve equipment reliability and preventive maintenance programs.
  • Ensure all automation systems comply with safety, quality, and regulatory requirements.

Success Measures

  • Successful implementation of robotic welding and finishing automation projects.
  • Increased throughput and capacity within fabrication and finishing operations.
  • Reduction in finishing cycle times and ergonomic risks.
  • Reduction in scrap, rework, and production bottlenecks.
  • Achievement of annual cost savings and continuous improvement objectives.

Minimum Requirements for Education, Skillset, Qualifications, and Experience:

Required

  • Must be a US citizen
  • A minimum of an associate's degree in manufacturing engineering, Mechanical Engineering, Automation Engineering, Robotics Engineering, or related field; equivalent manufacturing experience may be considered.
  • Experience within a fabrication, welding, machining, or manufacturing environment.
  • Strong understanding of welding processes, fabrication methods, and manufacturing operations.
  • Experience implementing automation solutions in a production environment.
  • Demonstrated project management and problem-solving skills.
  • Ability to work effectively on the shop floor and communicate with personnel at all organizational levels.

Preferred

  • Experience with industrial robotic systems
  • Robotic welding programming and troubleshooting experience.
  • Experience with robotic grinding, polishing, or finishing applications.
  • Knowledge of PLC programming and industrial controls.
  • Experience with machine vision systems and automated inspection technologies.
  • CAD experience for fixture and tooling design.
  • Lean Manufacturing and Six Sigma experience.
  • Hands-on welding, fabrication, or manufacturing engineering experience.