Mechatronics & Industrial Automation Program

Build the Future of Manufacturing with Mechatronics and Industrial Automation

Explore

Enroll now for early access of e-LMS

MODE
Online/ e-LMS

TYPE
Self Paced

LEVEL
Moderate

DURATION
1 Month

About

This comprehensive program covers essential concepts in mechatronics and automation, focusing on PLC programming, robotics, sensors, actuators, and IoT applications in industrial automation. The curriculum combines theoretical understanding with hands-on projects, preparing participants to implement and troubleshoot automated systems in real-world manufacturing environments.

Aim

This program is tailored to provide participants with practical knowledge in mechatronics and industrial automation, equipping them to work with modern automated systems, robotics, and smart manufacturing technologies. Participants will gain skills in integrating mechanical, electrical, and computer-based technologies to enhance manufacturing processes.

Program Objectives

Develop skills in designing and implementing automated industrial systems.
Gain practical knowledge of PLC programming and robotics.
Learn to integrate sensors, actuators, and IoT devices for smart manufacturing.
Troubleshoot and maintain mechatronics systems in industrial settings.
Complete a hands-on project showcasing automation skills.

Program Structure

Module 1: Fundamentals of Mechatronics and Control Systems

Overview: This introductory module covers the basics of mechatronics, exploring the principles of control systems, actuators, and feedback loops.
Topics Covered:
- Overview of mechatronics and its applications
- Control systems and feedback mechanisms
- Actuators and sensors in automation
Project: Design and implement a simple control system using sensors and actuators.

Module 2: Sensors, Actuators, and Signal Processing

Overview: Gain practical knowledge of sensors and actuators used in automation, along with signal processing techniques to interpret sensor data.
Topics Covered:
- Types of sensors (proximity, temperature, pressure, etc.)
- Actuators (motors, solenoids) and their applications
- Signal conditioning and processing for automation systems
Project: Set up a sensor-actuator system to automate a basic manufacturing task, using data processing for precision control.

Module 3: PLC Programming and Industrial Control

Overview: This module focuses on Programmable Logic Controllers (PLCs), covering the basics of PLC programming, ladder logic, and applications in automated production.
Topics Covered:
- Introduction to PLCs and their role in automation
- Ladder logic programming for PLCs
- Real-world applications of PLCs in industrial control
Project: Program a PLC to control an automated conveyor belt system, including start/stop functions and error handling.

Module 4: Robotics and Automation Systems

Overview: Explore the role of robotics in automation, covering robotic kinematics, path planning, and integration with automated systems in manufacturing.
Topics Covered:
- Basics of robotic kinematics and dynamics
- Path planning and movement control
- Robotic integration with automation systems
Project: Program a robotic arm for pick-and-place tasks within a simulated manufacturing environment.

Module 5: Capstone Project in Mechatronics and Automation

Overview: The capstone project enables you to apply your knowledge by designing an integrated automation system for a real-world manufacturing problem.
Project Options:
- Develop a robotic cell with PLC integration for product assembly.
- Design an automated quality control system using sensors and actuators.
- Create a smart conveyor system with robotic sorting and error detection.
Outcome: Complete an industry-relevant automation solution, gaining hands-on experience in mechatronics and industrial automation.

Intended For

Mechanical Engineers: Looking to gain skills in automation and mechatronics for modern manufacturing.
Engineering Students and Graduates: Interested in automation, robotics, and PLC programming.
Industrial Automation Professionals: Seeking to specialize in automated control systems and smart factory applications.

Program Outcomes

Understand Mechatronics Fundamentals: Master the integration of sensors, actuators, and control systems for automation.
Program and Control PLCs: Gain skills in PLC programming for industrial applications.
Implement Robotic Automation: Learn to program and control robotic systems for smart manufacturing.
Design Integrated Systems: Apply mechatronics and automation skills to develop integrated solutions for manufacturing.
Earn a Certification: Receive a globally recognized certification showcasing your expertise in mechatronics and industrial automation.

Fee Structure

Standard Fee: INR ~~9,998~~ USD ~~298~~

Discounted Fee: INR 4999 USD 149

We are excited to announce that we now accept payments in over 20 global currencies, in addition to USD. Check out our list to see if your preferred currency is supported. Enjoy the convenience and flexibility of paying in your local currency!

List of Currencies

FOR QUERIES, FEEDBACK OR ASSISTANCE

Key Takeaways

Access to e-LMS
Real Time Project for Dissertation
Project Guidance
Paper Publication Opportunity
Self Assessment
Final Examination
e-Certification
e-Marksheet

Future Career Prospects

1. High-Demand Skills in Smart Manufacturing

Gain specialized skills in automation and mechatronics, essential for roles in advanced manufacturing, robotics, and industrial engineering.

2. Hands-On Practical Learning

The program includes real-world projects that allow you to apply automation and control techniques, preparing you for roles in modern production environments.

3. Insights from Industry Experts

Learn from experienced instructors with in-depth knowledge of mechatronics and automation, including real-world examples and case studies.

Job Opportunities

Manufacturing companies implementing smart factories.
Industries relying on robotics and automated systems.
Engineering firms specializing in mechatronics and industrial automation solutions.