The Bachelor of Mechatronics Engineering prepares professionals with a solid foundation in mechanics, electronics, programming, and control systems to design, develop, and optimize automated processes. Graduates will be able to create robotic and intelligent solutions that drive efficiency and innovation across the manufacturing, automotive, and technology industries.
Innovation and Technology in Mechatronics Engineering
The Mechatronics Engineering program offers a comprehensive education that integrates mechanics, electronics, programming, and control systems. As a mechatronics engineer, students develop automated, robotic, and high-impact technological solutions while learning to integrate intelligent systems, optimize industrial processes, and lead innovation projects in a global environment shaped by digital transformation and Industry 4.0.
Practical Training and Opportunities
Through laboratory practice, industrial projects, and internships with leading companies, students will gain hands-on experience. At Texas State University Queretaro, here they will study how to design real-world solutions and become an engineer capable of leading the technological transformation of the future.
About the Program
Program Type
Bachelor's Degree
Credit Hours
126 Hours
Study time
4-year program
Format
On-Campus
Accreditations
SACSCOC
Academic Program
General Education
- Calculus I
- Calculus II
- Calculus III
- Differential Equations
- Fundamentals of Human Communications
- College Writing I
- Mechanics
- Mechanics Laboratory
- Engineering Chemistry
- Engineering Chemistry Laboratory
- Electricity and Magnetism
- Electricity and Magnetism Laboratory
- Principles of Economics
- History of the United States to 1877
- History of the United States, 1877 to Date
- Introduction to Fine Arts
- Principles of American Government
- Functions of American Government
- Philosophy and Critical Thinking
Mechatronics Requirements
- University Seminar
- Introduction to Mechatronics Engineering
- Foundations of Computer Science I
- Engineering Graphics
- Materials Engineering
- Statics
- Digital Logic
- Digital Logic Laboratory
- Calculus III
- Dynamics
- Mechanics of Materials
- Mechanics of Materials Laboratory
- Circuits I
- Circuits I Laboratory
- Applied Linear Algebra
- Energy and ThermoFluid Engineering
- Design of Machine Elements
- Circuits II
- Instrumentation Laboratory
- Microprocessors
- Microprocessors Laboratory
- Engineering Statistics
- Dynamics of Machinery
- Mechatronic Systems Laboratory
- Control Systems
- Mechatronic Systems
- Mechatronics Engineering Design I
- Mechatronics Engineering Design II
Your Future Starts Now!
Register and build your future at Texas State University Querétaro.
Job Market
- Automation Engineer
- Maintenance Engineer
- Robotics Engineer
- Artificial Vision Specialist
- Vehicle Systems Engineer
- Control Systems Engineer
- Drone Developer
- Mechatronic Systems Designer
- Product Development Engineer
- Smart Networks Developer
Relevance of Mechatronics Engineering
High Demand and Sustained Growth
In a world driven by automation and technology, mechatronics engineers are in increasing demand. The automotive, aerospace, electronics, and manufacturing industries seek professionals capable of integrating intelligent systems and optimizing processes aligned with Industry 4.0 standards.
Competitive Salaries
Mechatronics engineers enjoy highly competitive salaries due to the advanced technical specialization required in their field. Fields such as automation, robotics, artificial intelligence, and aerospace offer some of the best compensation packages within the technology sector.
Diverse Opportunities
Graduates in Mechatronics Engineering can pursue careers across multiple industries, including robotics, industrial automation, electronics, energy, aerospace, and medical technology. This diversity allows professionals to apply their knowledge in various environments—from multinational corporations to startups and entrepreneurial ventures.
Program Relevance
Mechatronics Engineering stands as one of the most essential professions in the era of digital transformation. Its interdisciplinary approach drives automation, artificial intelligence, and technological innovation—key pillars for industrial development, sustainability, and global progress.
Scholarships and Financial Support
Afford your dream education!
- Excellence Scholarship
- Academic Scholarship
- Athletic Scholarship
- Partnership Scholarship with companies and schools
