Industrial Automation and Mechatronics
Career Paths in Industrial Automation and Mechatronics
Automation Engineering is the use of control systems and information technologies to reduce the need for human work in the production of goods and services, while, Mechatronics is considered to be equal parts mechanical engineering, electrical engineering, and software programming/engineering.
Industrial Automation & Mechatronics is a multidisciplinary field of science that integrates the principals of mechanical engineering, electronics, computer engineering, telecommunications engineering, systems engineering and control engineering into a unified discipline while keeping the core mechanical engineering education.
In high demand, Industrial Automation & Mechatronics engineers are uniquely equipped to work as mechanical engineers with electronics, instrumentation and real time software engineering skills. With a core mechanical engineering education and a strong background in integrating electronics, sensors and actuators into devices, mechatronics engineers are a valuable asset in a wide field of engineering.
What does an Automation and Mechatronics Engineer do?
Automation & Mechatronics engineers work in all aspects of the development of products, from design and testing right through to manufacture. There is almost no product in the world that is solely electronic, electrical or mechanical in nature. With the growing capabilities of electronics, modern mechanical systems are embedded with electronics and controls. This means that the lines between each discipline are becoming increasingly blurred, and there is a growing demand for mechatronics engineers whose knowledge is strong across all of these areas.
From consumer goods, such as microwaves, cars and smart phones, to industrial applications such as CNC machine tools, robots and MRI and X-Ray machines, mechatronics engineers use fundamental principles of electrical, mechanical, software, and control engineering in their design and development in order to generate a simpler, more economical and reliable way to do things.
Automation and Mechatronics engineers create machines that are made up of several parts: the mechanical system, the sensing and actuation, the control systems and the software. An industrial robot is an excellent example of a mechatronics system; it includes aspects of electronics, mechanics, and computing to do its day-to-day job.
Some tasks Automation and Mechatronics Engineers undertake:
- Develop solutions to industrial problems by using mechanical/electronic/computer technology
- Design and build new products - for example, developing robotic vehicles for underwater exploration
- Introduce automation to factory production lines to improve existing processes
- Improve previous industrial/manufacturing processes - for example, robotic floor cleaners
- Design and develop engineering systems for the automation of industrial tasks
- Apply mechatronic solutions to the transfer of material, components or finished goods
- Apply control systems which are typically computer-driven
- Apply electronic/mechanical processes and computers to dangerous tasks in underwater exploration, mining or forestry
- Study the feasibility of new mechatronic equipment
- Carry out modelling and analysis of mechanical, electronic or other systems using computers
The ON-JOB-TRAINING for students of ndustrial Automation and Mechatronics courses are conducted on following Job Roles –
- Electrical Technician
- Data networking and cable technician
- Calibration Technician
- PLC Technician
- Mechatronics operator
- Industrial Automation Specialist