Become an Electromechanical Engineering Technician
Work with automated systems, robotics, and mechanical-electrical equipment.
What Is Electromechanical Engineering?
Electromechanical Engineering Technicians work at the intersection of mechanics, electronics, and automation. Students learn PLCs, motors, sensors, robotics, CAD interpretation, and troubleshooting procedures.
Ideal for detail-oriented learners who enjoy hands-on problem-solving, technology, and modern automated systems found in today's factories and engineering environments.
What You'll Learn in Electromechanical Engineering Training
Core Skills
- PLC programming
- Robotics systems
- Electrical circuits
- Mechanical drives
- Sensors and instrumentation
- Automation troubleshooting
- CAD interpretation
- Safety protocols
Safety & Compliance
- OSHA basics
- PPE
- Hazard awareness
- Jobsite safety
- Tool safety
- Workplace professionalism
Tools & Technology
- Siemens Mechatronics Certification
- FANUC Robotics Certification
Admissions Requirements for Electromechanical Engineering Training
Most Electromechanical Engineering programs have accessible entry requirements designed to help motivated students start their career.
Requirements vary by program and training provider. Career-Bond partners will confirm specific requirements during enrollment.
Certifications for Electromechanical Engineering
This program prepares you for nationally recognized certifications that employers value.
Siemens Mechatronics Certification
Siemens
Exam Focus: Core competencies; Safety; Trade practices
FANUC Robotics Certification
FANUC
Exam Focus: Core competencies; Safety; Trade practices
Certification requirements vary by state and employer. Career-Bond partners will help you understand the requirements in your area.
Electromechanical Engineering Salary & Job Outlook
Steady demand driven by continued use of automated and electromechanical systems in manufacturing, engineering, and industrial operations requiring technical maintenance and support
Career Outlook for Electromechanical Engineering
Work Settings
Manufacturing automation, engineering labs, robotics companies, industrial operations, technical service teams
Advancement Path
Progress to advanced certifications; specialize in a niche; move into lead, supervisor, estimator, or business owner roles with experience.
What Is the Difference Between Electromechanical Engineering and Engineering Management?
TL;DR: Electromechanical Engineering focuses on designing, maintaining, and troubleshooting mechanical and electrical systems, while Engineering Management centers on leading projects, teams, and operations rather than hands-on technical work.
Electromechanical Engineering programs prepare students to work directly with integrated mechanical, electrical, and automated systems, including motors, sensors, robotics, PLCs, and industrial equipment. Training is typically lab-intensive and emphasizes diagnostics, system maintenance, and applied engineering support in manufacturing, utilities, and technical operations. Engineering Management programs shift away from hands-on system work and instead focus on planning, coordination, budgeting, scheduling, quality control, and team leadership within engineering-driven organizations. Choose Electromechanical Engineering if you want a technical, hands-on role working with complex systems; choose Engineering Management if you want to oversee projects, people, and processes rather than perform technical troubleshooting.
Hands-on work with integrated mechanical and electrical systems
Leading engineering projects, teams, and operations
Associate to bachelor-level technical programs with lab-intensive training
Bachelor-level or graduate programs focused on management and leadership
Motors, sensors, robotics, PLCs, automation, diagnostics
Project planning, budgeting, scheduling, quality control, team leadership
Electromechanical or engineering technology credentials depending on program
Engineering management or project management credentials
Manufacturing plants, utilities, technical operations, labs
Office or hybrid environments overseeing technical teams and projects
PLCs, robotics systems, test equipment, industrial machinery
Project management software, reporting and coordination tools
Electromechanical technician, automation specialist, systems technician
Engineering manager, operations manager, senior leadership roles
Students who want a technical, hands-on role working with complex systems
Students who want to oversee projects, people, and processes rather than perform technical work
Electromechanical Engineering
Students who want a technical, hands-on role working with complex systems
Engineering Management
Students who want to oversee projects, people, and processes rather than perform technical work
Benefits of Electromechanical Engineering Training
Electromechanical Engineering Student Reviews
"I work with robots every day — the training was spot-on."
"The mix of electrical and mechanical skills prepared me well for the job."
"Great hands-on labs and real equipment practice."
Electromechanical Engineering FAQs
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Ready to Start Your Electromechanical Engineering Career?
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