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[Intelligent Equipment Technology] 4.Principles and Applications of Mechatronic Systems
#ICT# #IOT#

Lesson Code: TCEN2025H026

Clicks:
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Academic Hours
4.30hours
Publish Date
Nov 2025

Lecturer

1. Lecturer LIANG GuangruiGuangxi Technological College of Machinery and Electricity

2. Lecturer JIANG XingjiaGuangxi Technological College of Machinery and Electricity

3. Lecturer XIONG ZhiwenGuangxi Technological College of Machinery and Electricity

4. Lecturer ZHANG YixinGuangxi Technological College of Machinery and Electricity

5. Lecturer ZHU MengyanGuangxi Technological College of Machinery and Electricity

General Introduction
This course is based on the Industrial Robotics Technology program. It integrates mechatronics, automatic control, sensor technology, and intelligent control applications, emphasizing the integration of “theory and practice.”
It serves the cultivation of high-quality technical talents in the field of intelligent manufacturing and contributes to the digital transformation of vocational education and the collaborative development of industry and education in the ASEAN region.

This Course is for
1. Helping trainees master the basic principles and key technologies of mechatronic system control, and enabling them to perform modeling and simulation of control systems.
2. Familiarizing trainees with the working principles and applications of common sensors, stepper motors, and servo motors.
3. Enabling trainees to understand the basic principles and fundamental components of hydraulic and pneumatic systems, developing their ability to analyze and design typical mechatronic control systems, and cultivating innovative thinking and engineering practice competence.

Learning Materials

1. Corresponding PPT
2. Online Course Video
3. Simulation Question Banks

Recognized By

Benefits of Learning

1. Being able to possess a solid theoretical foundation and practical capability in mechatronic systems.
2. Being proficient in the principles of automatic control, PID control algorithms, sensor applications, and stepper and servo motor control technologies.
3. Being capable of demonstrating sound engineering literacy, safety awareness, and teamwork spirit, and being able to conduct standardized operations and fault diagnosis in real-world applications.
4. Being committed to continuous learning of emerging technologies, adapting to the development needs of intelligent manufacturing, and embodying the spirit of craftsmanship and innovation, qualified for technical service and application development positions related to industrial robotics and automation systems.

Courses Videos
1.1 Master the Concepts and Requirements of Automatic Control Systems (1).mp4play1.2 Master the Concepts and Requirements of Automatic Control Systems (2).mp4play1.3 Master the Modeling and Analysis of Mathematical Models for Automatic Control Systems.mp4play1.4 Master the Correction and Design of Automatic Control Systems.mp4play1.5 Master the Application of Automatic Control Systems (1).mp4play1.6 Master the Application of Automatic Control Systems (2).mp4play1.7 Master the Application of Automatic Control Systems (3).mp4play1.8 Simulated Closed-loop PID Monitoring.mp4play2.1 Overview of Sensor Detection Technology.mp4play2.2 Speed Detection Sensors in Mechatronic Equipment.mp4play2.3 Position Detection Sensors in Mechatronic Equipment.mp4play2.4 Displacement Detection Sensors in Mechatronic Equipment.mp4play2.5 Signal Preprocessing Technology.mp4play3.1 Fundamentals of Stepper Motor (Part 1).mp4play3.2 Fundamentals of Stepper Motor (Part 2).mp4play3.3 Stepper Motor Drive and Control.mp4play3.4 AC Permanent Magnet Synchronous Servo Motor.mp4play3.5 Three Control Methods of Servo Motor.mp4play3.6 Functional Structure of AC Permanent Magnet Synchronous Servo Motor Driver.mp4play3.7 Electrical Wiring of AC Magnet Synchronous Servo Motor.mp4play3.8 Parameter Configuration and Debugging of AC Permanent Magnet Synchronous Servo Motor Driver.mp4play3.9 IEC 61131-3 Standard and PLCOpen Motion Control Specification Programming.mp4play3.10 Common Instructions of PLCOpen Motion Control.mp4play3.11 Configuration of Motion Control in Inovance Technologys AutoShop Environment.mp4play4.1 Hydraulic Transmission.mp4play4.2 Pneumatic Transmission.mp4play4.3 Electro-Hydraulic Control Circuit.mp4play5.1 Overview of Mechanical Transmission Systems.mp4play5.2 Classification of Mechanical Transmission Systems.mp4play5.3 Design of Mechanical Transmission Systems (Part 1).mp4play5.4 Design of Mechanical Transmission Systems (Part 2).mp4play

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