University certificate
The world's largest faculty of engineering”
Introduction to the Program
Gracias a este Postgraduate certificate dominarás las últimas tendencias en la tecnología robótica”
Durante los últimos años, la Mecatrónica ha adquirido cada vez más protagonismo debido a su contribución a la innovación tecnológica. Gracias a las ventajas de la automatización de la maquinaria y creación de productos inteligentes, las empresas buscan constantemente elevar sus indicadores de rendimiento para desarrollar una mejora continua. De ahí que soliciten profesionales con una elevada especialización en Automation and Robotics in Mechatronics Systems.
En este sentido, TECH ha diseñado un plan de estudios innovador al respecto. El itinerario académico contiene los conceptos y las actividades más avanzadas en relación a la Automation and Robotics in Mechatronics Systems. Mediante los contenidos vertidos en esta capacitación, los egresados obtendrán un profundo conocimiento científico es aspectos mecánicos y de control. Para ello, se abordará la identificación de la estructura y las especificaciones básicas de un robot, así como la conveniencia de usarlo del modo adecuado.
Asimismo, con una metodología 100% online de esta titulación universitaria, los egresados podrán completar el programa con comodidad. Para el análisis de sus contenidos solo necesitarán un dispositivo con acceso a Internet ya que los horarios y cronogramas evaluativos pueden ser planificados de manera individual. Además, el temario se apoyará en el novedoso sistema de enseñanza Relearning que a través de la reiteración la reiteración garantiza el dominio de los diferentes conceptos a estudiar. A su vez, mezcla el proceso de aprendizaje con situaciones reales para que se adquieran las competencias prácticas de manera natural y progresiva, sin el esfuerzo extra.
A su vez, un prestigioso Director Invitado Internacional impartirá una exhaustiva Masterclass.
Un reconocido Director Invitado Internacional brindará una intensiva Masterclass sobre las últimas tendencias en Automatización y Robótica en Sistemas Mecatrónicos”
Este Postgraduate certificate en Automation and Robotics in Mechatronics Systems contiene el programa educativo más completo y actualizado del mercado. Sus características más destacadas son:
- El desarrollo de casos prácticos presentados por expertos en Automatización y robótica en Sistemas Mecatrónicos
- Los contenidos gráficos, esquemáticos y eminentemente prácticos con los que está concebido recogen una información actualizada y práctica sobre aquellas disciplinas indispensables para el ejercicio profesional
- Los ejercicios prácticos donde realizar el proceso de autoevaluación para mejorar el aprendizaje
- Su especial hincapié en metodologías innovadoras
- Las lecciones teóricas, preguntas al experto, foros de discusión de temas controvertidos y trabajos de reflexión individual
- La disponibilidad de acceso a los contenidos desde cualquier dispositivo fijo o portátil con conexión a internet
No dejes pasar la oportunidad de impulsar tu carrera mediante este programa innovador”
El programa incluye en su cuadro docente a profesionales del sector que vierten en esta capacitación la experiencia de su trabajo, además de reconocidos especialistas de sociedades de referencia y universidades de prestigio.
Su contenido multimedia, elaborado con la última tecnología educativa, permitirá al profesional un aprendizaje situado y contextual, es decir, un entorno simulado que proporcionará una capacitación inmersiva programada para entrenarse ante situaciones reales.
El diseño de este programa se centra en el Aprendizaje Basado en Problemas, mediante el cual el profesional deberá tratar de resolver las distintas situaciones de práctica profesional que se le planteen a lo largo del curso académico. Para ello, contará con la ayuda de un novedoso sistema de vídeo interactivo realizado por reconocidos expertos.
Da el salto a las mejores empresas de Robótica y Mecatrónica gracias a este vanguardista programa de TECH”
Estás a tan solo un clic de formar parte de la comunidad de TECH, la mayor universidad online del mundo”
Syllabus
The syllabus has been designed based on the requirements of robotics applied to mechatronic engineering, following the requirements proposed by the teaching team of this Postgraduate certificate. The syllabus includes a module that offers a broad perspective of automation and robotics in mechatronic systems from a global point of view for the sake of its application at an international level. In addition, it delves into the classification and applications of robots for students to overcome the challenge of achieving innovative manufacturing schemes. It will also address the kinematics of position and orientation with emphasis on the Denavit-Hartenberg formulation. In addition, programming systems will be covered in depth in order to master the various existing techniques.
You will have access to a syllabus developed by prestigious experts in Mechatronic Systems, which guarantees you a successful learning experience."
Module 1. Sensors and Actuators
1.1. Sensors
1.1.1. Sensor Selection
1.1.2. Sensors in Mechatronic Systems
1.1.3. Application Examples
1.2. Presence or Proximity Sensors
1.2.1. Limit Switches: Principle of Operation and Technical Characteristics
1.2.2. Inductive Detectors: Principle of Operation and Technical Characteristics
1.2.3. Capacitive Detectors: Principle of Operation and Technical Characteristics
1.2.4. Optical Detectors: Principle of Operation and Technical Characteristics
1.2.5. Ultrasonic Detectors: Principle of Operation and Technical Characteristics
1.2.6. Selection Criteria
1.2.7. Application Examples
1.3. Position Sensors
1.3.1. Incremental Encoders: Principle of Operation and Technical Characteristics
1.3.2. Absolute Encoders: Principle of Operation and Technical Characteristics
1.3.3. Laser Sensors: Principle of Operation and Technical Characteristics
1.3.4. Magnetostrictive Sensors and Linear Potentiometers
1.3.5. Selection Criteria
1.3.6. Application Examples
1.4. Temperature Sensors
1.4.1. Thermostats: Principle of Operation and Technical Characteristics
1.4.2. Resistance Thermometers: Principle of Operation and Technical Characteristics
1.4.3. Thermocouples: Principle of Operation and Technical Characteristics
1.4.4. Radiation Pyrometers: Principle of Operation and Technical Characteristics
1.4.5. Selection Criteria
1.4.6. Application Examples
1.5. Sensors for the Measurement of Physical Variables in Processes and Machines
1.5.1. Pressure Operating Principle
1.5.2. Flow rate: Operating Principle
1.5.3. Level: Operating Principle
1.5.4. Sensors for Other Physical Variables
1.5.5. Selection Criteria
1.5.6. Application Examples
1.6. Actuators
1.6.1. Actuator Selection
1.6.2. Actuators in Mechatronic Systems
1.6.3. Application Examples
1.7. Electric Actuators
1.7.1. Relays and Contactors: Principle of Operation and Technical Characteristics
1.7.2. Rotary Motors: Principle of Operation and Technical Characteristics
1.7.3. Stepper Motors: Principle of Operation and Technical Characteristics
1.7.4. Servomotors: Principle of Operation and Technical Characteristics
1.7.5. Selection Criteria
1.7.6. Application Examples
1.8. Pneumatic Actuators
1.8.1. Valves and Servovalves Principle of Operation and Technical Characteristics
1.8.2. Pneumatic Cylinders: Principle of Operation and Technical Characteristics
1.8.3. Pneumatic Motors: Principle of Operation and Technical Characteristics
1.8.4. Vacuum Clamping: Principle of Operation and Technical Characteristics
1.8.5. Selection Criteria
1.8.6. Application Examples
1.9. Hydraulic Actuators
1.9.1. Valves and Servovalves Principle of Operation and Technical Characteristics
1.9.2. Hydraulic Cylinders: Principle of Operation and Technical Characteristics
1.9.3. Hydraulic Motors: Principle of Operation and Technical Characteristics
1.9.4. Selection Criteria
1.9.5. Application Examples
1.10. Example of Application of Sensor and Actuator Selection in Machine Design
1.10.1. Description of the Machine to be Designed
1.10.2. Sensor Selection
1.10.3. Actuator Selection
Module 2. Axis Control, Mechatronic Systems and Automation
2.1. Automation of Production Processes
2.1.1. Automation of production processes
2.1.2. Classification of Control Systems
2.1.3. Technologies Used
2.1.4. Machine Automation and/or Process Automation
2.2. Mechatronic Systems: Elements
2.2.1. Mechatronic Systems
2.2.2. The Programmable Logic Controller as a Discrete Process Control Element
2.2.3. The Controller as a Control Element for Continuous Process Control
2.2.4. Axis and Robot Controllers as Position Control Elements
2.3. Discrete Control with Programmable Logic Controllers (PLC's)
2.3.1. Hardwired Logic vs. Programmed Logic
2.3.2. Control with PLC's
2.3.3. Field of Application of PLCs
2.3.4. Classification of PLCs
2.3.5. Selection Criteria
2.3.6. Application Examples
2.4. PLC Programming
2.4.1. Representation of Control Systems
2.4.2. Cycle of Operation
2.4.3. Configuration Possibilities
2.4.4. Variable Identification and Address Assignment
2.4.5. Programming Languages
2.4.6. Instruction Set and Programming Software
2.4.7. Programming Example
2.5. Methods of Describing Sequential Drives
2.5.1. Design of Sequential Drives
2.5.2. GRAFCET as a Method for Describing Sequential Drives
2.5.3. Types of GRAFCET
2.5.4. GRAFCET Elements
2.5.5. Standard Symbology
2.5.6. Application Examples
2.6. Structured GRAFCET
2.6.1. Structured Design and Programming of Control Systems
2.6.2. Modes of Operation
2.6.3. Security/Safety
2.6.4. Hierarchical GRAFCET Diagrams
2.6.5. Structured Design Examples
2.7. Continuous Control by Means of Controllers
2.7.1. Industrial Controllers
2.7.2. Scope of Application of the Regulators. Classification
2.7.3. Selection Criteria
2.7.4. Application Examples
2.8. Machine Automation
2.8.1. Machine Automation
2.8.2. Speed and Position Control
2.8.3. Safety Systems
2.8.4. Application Examples
2.9. Position Control by Axis Control
2.9.1. Position Control
2.9.2. Field of Application of Axis Controllers. Classification
2.9.3. Selection Criteria
2.9.4. Application Examples
2.10. Example of Application of Equipment Selection in Machine Design
2.10.1. Description of the Machine to be Designed
2.10.2. Equipment Selection
2.10.3. Resolved Application
The teaching materials of this program, elaborated by these specialists, have contents that are completely applicable to your professional experiences"
Postgraduate Certificate in Automation and Robotics in Mechatronics Systems
Mechatronics is fundamental in today's world, merging disciplines that enable the creation of advanced and automated systems that drive industry, health, technology and efficiency in diverse areas. The Faculty of Engineering at TECH Global University provides you with an exceptional opportunity to achieve your goals. The Postgraduate Certificate in Automation and Robotics in Mechatronic Systems is taught in online mode, allowing you to access this knowledge from anywhere in the world. Can you imagine being in control of highly efficient and automated machines? Upon completion of this program, you will be equipped with the necessary skills to design, implement and maintain advanced mechatronic systems. The teaching team is made up of subject matter experts ready to guide you throughout your academic journey. You'll learn about industrial automation, collaborative robotics, process control, machine vision and much more.
Discover what this cutting-edge program has to offer you
Once you complete the Postgraduate Certificate in Automation and Robotics in Mechatronic Systems, you'll find yourself in a great position to make inroads in a variety of industry sectors, including manufacturing, industrial automation, service robotics, advanced logistics and research. You will be prepared to serve as an engineer, contributing to innovation and efficiency in a wide range of industrial and technological applications. The objective is to prepare you to be a competent and up-to-date professional in the field. Therefore, upon completion, you will receive a certificate that will validate your knowledge and open doors in industry and research. Imagine the satisfaction of applying your skills in cutting-edge industrial environments, contributing to the advancement of technology and production efficiency. Would you like to be part of the new revolution? Now is the time to take action and join our program. Your future is full of exciting possibilities. enroll now and take the first step towards a successful career!