Study Plan - Mechatronic Engineering
When you finish all units of your education program, you will receive a Diploma and a Professional License, as well as a bachelor’s degree endorsed by SACSCOC that is recognized worldwide.
Study Plan and Program incorporated to SEP.
DIPES: 20241900, 22/08/2024
Mixed Modality.
First Term
Hours With Teacher : Horas Docente
Hours Independent: Horas independiente
Second Term
Hours With Teacher : Horas Docente
Hours Independent: Horas independiente
Third Term
Hours With Teacher : Horas Docente
Hours Independent: Horas independiente
Fourth Term
Hours With Teacher : Horas Docente
Hours Independent: Horas independiente
Fifth Term
Hours With Teacher : Horas Docente
Hours Independent: Horas independiente
Sixth Term
Hours With Teacher : Horas Docente
Hours Independent: Horas independiente
Seventh Term
Hours With Teacher : Horas Docente
Hours Independent: Horas independiente
Eighth Term
Hours With Teacher : Horas Docente
Hours Independent: Horas independiente
| Total Study Plan Credits | |
|---|---|
| Hours With Teacher | 2688 |
| Hours Independent | 2032 |
| Credits (Units) | 301 |
Objective
Train professionals in Mechatronic Engineering capable of analyzing, designing, evaluating, innovating and implementing mechatronic systems using current technological tools and real and virtual environments. These professionals will apply concepts of electronics, programming, manufacturing, automation, robotics, mechanisms and automotive networks to develop and optimize automated equipment and production processes, with an ethical and social approach, addressing the challenges of globalization.
Graduate profile
The Mechatronic Engineering’s teaching learning process is based on competencies to integrate knowledge, skills and attitudes that train ethical professionals who can meet the mechatronic needs and requirements of the population, in a global world.
- Apply electronics, manufacturing, robotics, automotive networks and renewable energies tools to develop technological solutions in mechatronics, considering safety, economy and sustainability, with an ethical and professional approach.
- Recommend solutions to mechatronics problems using technological advances and digital tools, developing projects that ensure quality and continuous improvement, evaluating critical situations with social responsibility.
- Develop technological mechatronics solutions by analyzing automotive networks, renewable energy, automation and manufacturing, creating reports that assess socioeconomic impacts with ethical criteria.
- Apply mechatronics design strategies considering the ethical, global, economic, environmental and social impact, updating professionally with self-learning tools to stay at the forefront of the discipline.
- Develop mechatronic systems projects using robotics, automotive networks, manufacturing and renewable energy, collaborating in multidisciplinary teams and communicating effectively to solve innovative problems.
- Manage learning using digital resources effectively.
Explore everything that studying Mechatronic Engineering has to offer.
Recommended Computer Specifications
These specifications are provided as a general guideline, reflecting the average requirements of the academic software currently in use at the institution. Please note that the university is not responsible for any individual decisions made regarding computer equipment.