Access a professional master’s degree of the highest level and master Mechatronics Engineering from the best experts with TECH"

The technology industry is advancing by leaps and bounds. Every year millions of dollars are invested in this sector, a small figure compared to the benefits it brings. One of the emerging focuses that has generated the greatest impact has been

Mechatronics Engineering, especially for the versatility it encompasses, as well as for the wide range of applications and challenges it proposes. In short: it has become an endless opportunity for innovation. However, it is also a challenge for all professionals, especially because of the dizzying pace at which mechanics, electronics and computer science are advancing in the design of intelligent systems and products.

In view of this, TECH has developed this professional master’s degree in Mechatronics Engineering, a complete and comprehensive program that brings together the advances in this field in 1,500 hours of the best theoretical, practical and additional content. This is an unparalleled academic experience with which the professionals will be able to delve into the interdisciplinary nature of this area, learning the most effective techniques and methods for system design, axis control, automation or numerical simulation. In addition, students will be able to delve into the assisted manufacturing of components, being updated on the latest developments of the most effective materials in the current engineering market.

All this over 12 months, during which you will have unlimited access to a state-of-the-art virtual platform, without schedules or on-site classes, offering you an academic experience that adapts to your total and absolute availability. In addition, it is supported by a convenient 100% online format, as well as the Relearningmethodology, aspects that have allowed TECH to position itself as the best digital university in the world. It is, therefore, a unique opportunity to begin a program that will raise the knowledge and talent of the engineer to the highest level in an area in expansion and with great expectations for the future, such as Mechatronics Engineering.

After the course of this professional master’s degree you will stand out for your exhaustive handling of electronics and mechanics in less than 12 months"

This professional master’s degree in Mechatronics Engineering contains the most complete and up-to-date program on the market. The most important features include:

• The development of case studies presented by experts in computer engineering and technology
• The graphic, schematic and practical contents of the book provide technical and practical information on those disciplines that are essential for professional practice
• Practical exercises where the self-assessment process can be carried out to improve learning
• Its special emphasis on innovative methodologies
• Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments
• Content that is accessible from any fixed or portable device with an Internet connection

Master the best instrumentation strategies by delving into the development of controlled variables in today's computer environment"

The program’s teaching staff includes professionals from the field who contribute their work experience to this educational program, as well as renowned specialists from leading societies and prestigious universities.

The multimedia content, developed with the latest educational technology, will provide the professional with situated and contextual learning, i.e., a simulated environment that will provide immersive education programmed to learn in real situations.

This program is designed around Problem-Based Learning, whereby the professional must try to solve the different professional practice situations that arise during the academic year For this purpose, the students will be assisted by an innovative interactive video system created by renowned and experienced experts.

Implement to your skills the exhaustive management of the most advanced techniques in product design and prototyping with TECH"

More than 1,500 hours of the best theoretical, practical and additional content compacted in a convenient 100% online format"

TECH and its team of experts have developed this program in Mechatronics Engineering with the objective of providing graduates with all the material they need to reach the highest professional level in this field in just 12 months. In this way, through 1,500 hours of theoretical, practical and additional material formed by the latest computer trends, you will achieve your most demanding work goals in a guaranteed way.

If your objectives include mastering the numerical simulation of mechanical systems, this professional master’s degree is what you were looking for"

General Objectives

• Develop the necessary basis to enable and facilitate versatile learning of new methodologies
• Identify and analyze the main types of industrial mechanisms
• Identify the sensors and actuators of a process according to their functionality
• Delve into CAD design methodology and apply it to mechatronic projects
• Identify the different equipment involved in the control of industrial processes
• Establish the analysis typology and FEM calculation model to reproduce the real test of a mechatronic component
• Present the elements that make up a robotic system
• Examine the mathematical models governing multibody mechanics
• Define the fundamentals of embedded systems, including their architecture, components and applications in modern engineering
• Determine the different models of embedded manufacturing present in the industrial world

Specific Objectives

Module 1. Mechatronics Machines and Systems

• Recognize the different methods of motion transmission and transformation
• Identify the main types of machines and mechanisms that allow the transmission and transformation of motion
• Define the bases for the study of static and dynamic stresses of mechanical systems
• Establish the basis for the study, design and evaluation of the following mechanical elements and systems: gears, shafts and shafts, bearings, springs, mechanical joints, flexible mechanical elements, brakes and clutches

Module 2. Assisted manufacturing of mechanical components in mechatronic systems

• Present the main fundamentals of mechatronic systems, as well as their context within today's technological development
• Establish a habit of integrating assisted manufacturing techniques in the day-to-day design of mechanical components
• Analyze the existing techniques, as well as the norms, regulations and standards in the assisted development of mechanical components
• Establish the quality and quality control criteria necessary for the correct development of the manufacturing process

Module 3. Sensors and Actuators

• Recognize and select the sensors and actuators involved in an industrial process according to their practical application
• Configure a sensor or an actuator according to the proposed technical requirements
• Design an industrial production process according to the proposed technical requirements

Module 4. Design of mechatronic systems

• Define relationships and equations to create parametric models that adapt to design changes in an agile way
• Finding and utilizing available resources from mechatronic element manufacturers or repositories and including them in the design to increase productivity
• Develop bent sheet metal parts efficiently
• Generate technical drawings and detailed plans from 3D models of parts and assemblies

Module 5. Axis control, mechatronic systems and automation

• Identify the elements that make up the controllers of industrial systems, relating their function with the elements that make up the automation processes
• Be able to configure and program a controller according to the technical requirements proposed in the process
• Work with the special characteristics of machine automation
• Be able to design an industrial production process according to the proposed technical requirements

Module 6. Structural calculation of mechanical systems and components

• Establish the most suitable material model to represent the behavior of a material under its test conditions
• Define the boundary conditions representing a real test
• Determine the results required in a finite element calculation to evaluate the feasibility of a design

Module 7. Robotics applied to Mechatronic Engineering

• Identify the components that are part of a robot
• Fundamentals of the mathematical principles used in the study of the kinematics and dynamics of a robot
• Specify the mechanical formulation used in the analysis and design of a robot
• Develop the trajectory planning techniques used in kinematic control
• Analyze the linear dynamic control of a DC motor

Module 8. Numerical simulation of mechanical systems

• Develop the kinematic equations of multibody systems and the dynamic equations of multibody systems
• Be able to select a suitable contact or collision model
• Simulate motion transmissions using commercial software
• Be able to simulate robotic systems using commercial software

Module 9. Embedded Systems

• Delve into the study and analysis of microprocessors, including architectures, instruction sets and programming strategies specific to embedded microprocessors
• Develop skills in the design and implementation of real-time embedded systems, addressing applications such as industrial process control, signal filtering, pattern detection, and real-time data acquisition
• Develop competencies in the design and programming of programmable hardware, such as FPGAs, and in the use of single board computers (SBCs) for the creation of embedded systems
• Develop skills to design, develop, and deploy IoT solutions, including connecting embedded devices to the cloud, managing data, and creating IoT applications

Module 10. Mechatronic Systems Integration

• Evaluate the possibilities of integrated manufacturing that exist today
• Analyze the different types of communication networks available and assess which type of communication network is the most suitable in given scenarios
• Examine human-machine interface systems that allow centralized control and monitoring of processes, verifying their operation
• Fundamentals of new manufacturing technologies based on Industry 4.0
• Integrate the different control equipment involved in mechatronic systems

Implement into your practice the latest strategies in embedded systems development through a professional master’s degree of the highest professional level"