Introduction to the Program

Master the most advanced processes of Mechatronic Systems Manufacturing thanks to this Postgraduate diploma"

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Mechatronics Engineering is recognized worldwide thanks to its contribution to research and technological development in all areas of society. Therefore, companies in sectors such as the industrial sector are increasingly demanding the incorporation of experts in Mechatronics to improve the efficiency of the manufacturing of their products.

Taking into account this context, TECH has designed this Postgraduate diploma in Manufacturing and Integration of Mechatronic Systems. The academic program addresses the latest advances that have occurred in the mechatronics sector, thus preparing graduates to successfully overcome technological challenges that require interdisciplinarity. To this end, it delves into the advances in Mechanical Manufacturing and emphasizes SCADA packages to incorporate them into industrial control processes. It also delves into the new revolution of Industry 4.0 with the purpose of combining the most advanced production techniques with the main intelligent technologies.

With a 100% online methodology, students will study the Postgraduate diploma with ease and will only need a device with Internet access. It should be noted that the syllabus is based on the innovative Relearningteaching system, based on repetition to strengthen students' knowledge. At the same time, it mixes the learning process with real situations so that the competencies are acquired in a natural and progressive way. All this, with an eminently professional orientation, allowing students to immediately apply everything they have learned in their daily work.

This Postgraduate diploma will prepare you to respond to the current and future challenges of Mechatronics"

This Postgraduate diploma in Manufacturing and Integration of Mechatronic Systems 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 Manufacturing and Integration of Mechatronic Systems
  • The graphic, schematic and practical contents with which it is conceived provide cutting- Therapeutics 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

Stand out in a sector with great professional projection. Enroll now and advance your career immediately"

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.

You will expand your knowledge with the most advanced and effective teaching methodology: TECH Relearning"

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Study with the most prestigious and experienced teaching staff in the area of Mechatronics"

Syllabus

The program of this Postgraduate diploma has been developed by a teaching staff of international prestige, with extensive experience in the Manufacture and Integration of Mechatronic Systems. Thanks to this, the training is characterized by having the most updated materials in the mechatronics sector. Throughout 3 modules, the graduates will broaden their knowledge and acquire competencies to develop professionally in the sector.

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The teaching materials of this Postgraduate diploma are prepared by prestigious experts who will guarantee that your learning will be successful"

Module 1. Assisted Manufacturing of Mechanical Components in Mechatronic Systems

1.1. Mechanical Manufacturing in Mechatronic Systems

1.1.1. Mechanical Manufacturing Technologies
1.1.2. Mechanical Manufacturing in the Mechatronics Industry
1.1.3. Advances in Mechanical Manufacturing in the Mechatronics Industry

1.2. Material Removal Processes

1.2.1. Theory of Metal Cutting
1.2.2. Traditional Machining Processes
1.2.3. CNC and Automation in Manufacturing

1.3. Sheet Metal Forming Technologies

1.3.1. Sheet Metal Cutting Technologies: Laser, Water and Plasma
1.3.2. Technology Selection Criteria
1.3.3. Sheet Metal Vending

1.4. Abrasion Processes

1.4.1. Manufacturing Techniques by Abrasion
1.4.2. Abrasive Tools
1.4.3. Shot Blasting and Sandblasting Processes

1.5. Advanced Technologies in Mechanical Manufacturing

1.5.1. Additive Manufacturing and its Applications
1.5.2. Micro-Manufacturing and Nanotechnology
1.5.3. Electrical Discharge Machining

1.6. Rapid Prototyping Techniques

1.6.1. 3D Printing in Rapid Prototyping
1.6.2. Rapid Prototyping Applications
1.6.3. 3D Printing Solutions

1.7. Design for Manufacturing in Mechatronic Systems

1.7.1. Manufacturing-oriented Design Principles
1.7.2. Topological Optimization
1.7.3. Design Innovation for Manufacturing in Mechatronics Systems

1.8. Plastic Forming Technologies

1.8.1. Injection Molding Processes
1.8.2. Blow Molding
1.8.3. Compression and Transfer Molding

1.9. Advanced Technologies in Plastic Forming

1.9.1. Metrology
1.9.2. Units of Measurement and International Standards
1.9.3. Measuring Instruments and Tools
1.9.4. Advanced Metrology Techniques

1.10. Quality Control

1.10.1. Measuring Methods and Sampling Techniques
1.10.2. Statistical Process Control (SPC)
1.10.3. Regulations and Quality Standards
1.10.4. Total Quality Management (TQM)

Module 2. Embedded Systems

2.1. Embedded Systems in Engineering

2.1.1. Embedded Systems
2.1.2. Embedded systems in engineering
2.1.3. Importance of Embedded Systems in Modern Engineering

2.2. Microcontrollers

2.2.1. Microcontrollers
2.2.2. Differences between Microcontrollers and Development Boards
2.2.3. Microcontrollers and Development Boards
2.2.4. Programming Languages for Microcontrollers

2.3. Sensors and Actuators

2.3.1. Industrial Sensors
2.3.2. Industrial Actuators
2.3.3. Communication between Sensors and the Central Unit
2.3.4. Actuator Control in Embedded Systems

2.4. Embedded Systems for Real-Time Control

2.4.1. Hard Real Time System
2.4.2. Soft Real Time System
2.4.3. Programming of Real Time Systems

2.5. Embedded Digital Signal Processing Systems

2.5.1. Digital Signal Processing (DSP)
2.5.2. Design of DSP Algorithms in Embedded Systems
2.5.3. Applications of DSP in Engineering by Means of Embedded Systems

2.6. Programmable Hardware in Embedded Systems

2.6.1. Programmable Logic and FPGAs
2.6.2. Design of Logic Circuits in Programmable Hardware
2.6.3. Programmable Hardware Technologies

2.7. Single Board Computers (SBC)

2.7.1. Parts of Single Board Computers
2.7.2. Main Architectures
2.7.3. Single-board Computers vs. Desktop Computers

2.8. Embedded Systems in the Internet of Things (IoT)

2.8.1. Internet of things (IoT)
2.8.2. Integration of Embedded Systems in the IoT
2.8.3. Sensors and IoT Devices
2.8.4. Use Cases and Practical Applications

2.9. Security and Reliability in Embedded Systems

2.9.1. Threats and Vulnerabilities in Embedded Systems
2.9.2. Secure Design and Coding Practices
2.9.3. Maintenance and Security Updates

2.10. Embedded Systems Communication and Connectivity

2.10.1. Communication Protocols for Embedded Systems
2.10.2. Sensor Networks and Wireless Communication
2.10.3. Integration with the Internet and the Cloud

Module 3. Mechatronic Systems Integration

3.1. Integrated Manufacturing Systems

3.1.1. Integrated Manufacturing Systems
3.1.2. Industrial Communications in Systems Integration
3.1.3. Integration of Control Equipment in the Production Processes
3.1.4. New Production Paradigm: Industry 4.0

3.2. Industrial Communication Networks

3.2.1. Industrial Communications. Evolution
3.2.2. Structure of Industrial Networks
3.2.3. Current Situation of Industrial Communications

3.3. Communication Networks at the Process Interface Level

3.3.1. AS-i: Elements
3.3.2. IO-Link: Elements
3.3.3. Integration of Equipment
3.3.4. Selection Criteria
3.3.5. Application Examples

3.4. Communication Networks at the Control and Regulation Level

3.4.1. Communication Networks at the Command and Control Level
3.4.2. Profibus: Elements
3.4.3. Canbus: Elements
3.4.4. Equipment Integration
3.4.5. Selection Criteria
3.4.6. Application Examples

3.5. Communication Networks at Centralized Supervisory and Command Level

3.5.1. Centralized Supervisory and Command Level Networks
3.5.2. Profinet: Elements
3.5.3. Ethercat: Elements
3.5.4. Equipment Integration
3.5.5. Application Examples

3.6. Process Monitoring and Control Systems

3.6.1. Process Monitoring and Control Systems
3.6.2. Human Machine Interfaces (HMIs)
3.6.3. Examples of Use

3.7. Operator Panels

3.7.1. The Operator Panel as a Human-machine Interface
3.7.2. Membrane Panels
3.7.3. Touch Panels
3.7.4. Communication Possibilities of the Operator Panels
3.7.5. Selection Criteria
3.7.6. Application Examples

3.8. SCADA Packages

3.8.1. SCADA Packages as Man-machine Interface
3.8.2. Selection Criteria
3.8.3. Application Examples

3.9. Industry 4.0. Intelligent Manufacturing

3.9.1. Industry 4.0
3.9.2. Architecture of the New Factories
3.9.3. Industry 4.0 Technologies

3.10. Examples of Manufacturing based on Industry 4.0

3.10.1. Example of Application of Equipment Integration in an Automated Process
3.10.2. Description of the Process to be Automated
3.10.3. Selection of Control Equipment
3.10.4. Integration of Equipment

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Revolutionize the Mechatronics sector thanks to the skills and techniques you will acquire in this Postgraduate diploma"

Postgraduate Diploma in Manufacturing and Integration of Mechatronic Systems

In the world of engineering and automation, mechatronics has become an essential field. The combination of mechanics, electronics and information technology has revolutionized the way we design and produce complex systems. Do you want to specialize in this field? You've come to the right place. At TECH Global University you will find the Postgraduate Diploma in Manufacturing and Integration of Mechatronic Systems, a unique opportunity to enter this exciting world and develop the necessary skills to lead mechatronics projects. With this program, taught in online mode, you will obtain a solid foundation in mechanics, electronics and programming, which will allow you to explore in depth the essential components of mechatronic systems. In addition, you will learn how to fabricate prototypes with 3D-CNC printing technologies and design mechanical and electronic components using 3D modeling tools.

Learn about manufacturing and integration of mechatronic systems

Mechatronics is the future of engineering and automation. This Postgraduate Certificate offered by TECH was designed under the highest quality standards, which guarantees that you will get an immersive preparation that will elevate your learning curve. Our educational model includes innovative lessons guided by experts, who will contribute their best knowledge and skills. From this, you will learn advanced control and automation techniques, including PLCs (Programmable Logic Controllers) and embedded systems. In addition, you will be immersed in the integration of mechatronic components and communication between devices, which is essential for complex systems. Finally, you will learn how to develop and program robots and implement machine vision systems for industrial applications. Want to learn more? Join our Postgraduate Certificate in Mechatronics Manufacturing and Systems Integration and get ready for an exciting career at the cutting edge of technology. enroll now and start your journey into mechatronics!