Mechatronics Engineering

About the Career

The Mechatronics Engineering career arises out of the needs of the Modern Industry of professionals who master several disciplines mainly, Mechanics, Electronics, Industrial Automation and the Integration of Manufacturing Systems, among others. This multidisciplinary training is evident, when observing the curriculum of studies, where emphasis is given to a solid theoretical training, an exhaustive practical training and real life applications.

The Mechatronics Engineering career maintains a leadership position in the region, due to its decisive contribution to the progress and innovation of the industry.

The Mechatronics Engineering program, trains world-class multidisciplinary professionals with solid scientific, technological and practical foundations. With the ability to apply knowledge to the demands of current and future industry. And in this way prepare professionals who will maintain, manage, develop and design high-tech engineering systems that will revolutionize industrial tasks.

Data Sheet

  • Faculty: FISICC
  • Area: Computer Science
  • Title: Engineering
  • Duration: 4 years
  • Modality: Presence based
  • Period of activities: Morning and Evening
  • Academic term: Semester
  • Headquarters: Central Campus

Graduate Profile

Our graduates are occupying strategic and important positions in international organizations with high technological prestige such as: Xerox, Paypal, Tigo, Microsoft, Xumak, Walmart, CBC, Telefónica, among others.

The graduate of the Mechatronics Engineering career will be a professional who will be able to work in any industry. He/She will also be able to adapt to change with speed, creativity and innovation. Their training and ability to learn will allow them to compete at a national and international level in the development of solutions, with strict adherence to ethical principles.

The graduate will have the capacity to improve the already established industrialized systems and capacity for continuous improvement. He/She will be able to make decisions that will make the industrial production more effective.

Methodology

Each class is planned so that the theoretical and practical contents that motivate the interaction between the teacher and the students can be developed.

The methodology proposed, motivates the participation of students in an exchange of ideas, knowledge and perspectives. It also combines several complementary learning methods and strategies such as use of highly equipped laboratories, expert talks, participation in scientific fairs, preparation of real projects, motivation for self-learning and carrying out conferences, among others.

This in order to enhance knowledge and thus generate in the student better criteria, experiences, perspectives and knowledge that lead him to a training as complete and comprehensive as possible.

Curriculum

FIRST YEAR
  • FIRST CYCLE
  • COMPUTER SCIENCES REINFORCEMENT I
    RESEARCH AND LEARNING TECHNIQUES
    PHYSICS I
    PHYSICS I REINFORCEMENT
    COMPUTERS I
    COMPUTERS I REINFORCEMENT
    DESCRIPTIVE TECHNOLOGY
    MATHEMATICS I
    MATHEMATICAL OPERATIONS LABORATORY I
    COMPUTER SCIENCES I
  • SECOND CYCLE
  • EVOLUTION OF SCIENCE AND TECHNOLOGY
    PHYSICS II
    COMPUTERS II
    MATHEMATICS II
    MATHEMATICAL OPERATIONS LABORATORY II
    COMPUTER SCIENCES II
    TECHNICAL DRAWING
SECOND YEAR
  • THIRD CYCLE
  • ELECTRICITY I
    PHYSICS III
    COMPUTERS III
    MATHEMATICS III
    LINEAR ALGEBRA I
    COMPUTER SCIENCES III
  • FOURTH CYCLE
  • ELECTRICITY II
    ELECTRONICS I
    PHYSICS IV
    COMPUTER AIDED DRAWING
    MATHEMATICS IV
    LINEAR ALGEBRA II
    ORDINARY DIFFERENTIAL EQUATIONS
THIRD YEAR
  • FIFTH CYCLE
  • ELECTRONIC INSTRUMENTATION
    ELECTRONICS II
    ELECTRONICS III
    COMPUTER ASSISTED MANUFACTURING
    SCIENCE OF MATERIALS I
    MATHEMATICS V
    MATHEMATICAL STATISTICS
  • SIXTH CYCLE
  • ELECTRICAL INSTALLATIONS
    MICROPROCESSORS
    DESIGN OF MECHANISMS AND MACHINES I
    THEORY OF CONTROL
    SCIENCE OF MATERIALS II
    MATHEMATICS VI
FOURTH YEAR
  • SEVENTH CYCLE
  • MICROPROCESSOR APPLICATIONS
    ECONOMICS I
    INDUSTRIAL AUTOMATION
    POWER AND ENGINES
    DESIGN OF MECHANISMS AND MACHINES II
    MATHEMATICS VII
    OPERATIONS RESEARCH SEMINAR I
  • EIGHTH CYCLE
  • ECONOMICS II
    ACTUATORS AND SENSORS
    INDUSTRIAL NETWORKS
    INTEGRATION OF MANUFACTURING SYSTEMS
    ROBOTICS
    OPERATIONS RESEARCH SEMINAR II

Curriculum

FIRST YEAR
  • FIRST CYCLE
  • COMPUTER SCIENCES REINFORCEMENT I
    RESEARCH AND LEARNING TECHNIQUES
    PHYSICS I
    PHYSICS I REINFORCEMENT
    COMPUTERS I
    COMPUTERS I REINFORCEMENT
    DESCRIPTIVE TECHNOLOGY
    MATHEMATICS I
    MATHEMATICAL OPERATIONS LABORATORY I
    COMPUTER SCIENCES I
  • SECOND CYCLE
  • EVOLUTION OF SCIENCE AND TECHNOLOGY
    PHYSICS II
    COMPUTERS II
    MATHEMATICS II
    MATHEMATICAL OPERATIONS LABORATORY II
    COMPUTER SCIENCES II
    TECHNICAL DRAWING
SECOND YEAR
  • THIRD CYCLE
  • ELECTRICITY I
    PHYSICS III
    COMPUTERS III
    MATHEMATICS III
    LINEAR ALGEBRA I
    COMPUTER SCIENCES III
  • FOURTH CYCLE
  • ELECTRICITY II
    ELECTRONICS I
    PHYSICS IV
    COMPUTER AIDED DRAWING
    MATHEMATICS IV
    LINEAR ALGEBRA II
    ORDINARY DIFFERENTIAL EQUATIONS
THIRD YEAR
  • FIFTH CYCLE
  • ELECTRONIC INSTRUMENTATION
    ELECTRONICS II
    ELECTRONICS III
    COMPUTER ASSISTED MANUFACTURING
    SCIENCE OF MATERIALS I
    MATHEMATICS V
    MATHEMATICAL STATISTICS
  • SIXTH CYCLE
  • ELECTRICAL INSTALLATIONS
    MICROPROCESSORS
    DESIGN OF MECHANISMS AND MACHINES I
    THEORY OF CONTROL
    SCIENCE OF MATERIALS II
    MATHEMATICS VI
FOURTH YEAR
  • SEVENTH CYCLE
  • MICROPROCESSOR APPLICATIONS
    ECONOMICS I
    INDUSTRIAL AUTOMATION
    POWER AND ENGINES
    DESIGN OF MECHANISMS AND MACHINES II
    MATHEMATICS VII
    OPERATIONS RESEARCH SEMINAR I
  • EIGHTH CYCLE
  • ECONOMICS II
    ACTUATORS AND SENSORS
    INDUSTRIAL NETWORKS
    INTEGRATION OF MANUFACTURING SYSTEMS
    ROBOTICS
    OPERATIONS RESEARCH SEMINAR II


Why you must study with us

 

Experience

We have more than 40 years of experience in technological education offering updated contents, highly equipped laboratories and providing the same educational quality that the most prestigious universities in the world use.

Educational Quality

We have professors of international quality graduated from prestigious universities with Ph.D. degrees from: University of Zurich, Telecom University SudParis, Purdue University, University of Illinois, among others.

Graduates

Our graduates are occupying strategic and important positions in international organizations of high technological prestige like: Xerox, Paypal, Tigo, Microsoft, Xumak, Walmart, CBC, Telefónica, among others.

Admission Process

Know here the different processes to follow to belong to our educational community.

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