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  • Engineering Course

INDUSTRIAL SYSTEM AND DRIVES

  • 1 Colleges

Modelling, designing and manufacturing static converters, electrical machines and actuators, and the corresponding control systems are among the team's specialities.

ABOUT INDUSTRIAL SYSTEM AND DRIVES

Modelling, designing and manufacturing static converters, electrical machines and actuators, and the corresponding control systems are among the team's specialities. The team uses a systematic research approach, allowing them to integrate conversion devices that have been validated within complicated systems. This is especially crucial for new energy distribution networks, renewable energy, and long-term development.

With the current infrastructure, prototype production is also possible. Complete characterisations of complex systems are possible thanks to tests, measurements, and performance evaluations that cover elements like efficiency, dependability, and EMC testing in the watts to kilowatts range. Converters, semiconductor component characterisation, passive elements, system modelling and dimensioning, conversion devices, modularity, thermal engineering, efficiency, protective devices, parameter measurements, circuit design are all examples of power electronics. Instrumentation, metrology, troubleshooting, and standardisation studies are all aspects of EMC.

Industrial electronics: control system design, real-time conversion system emulation, digital control platform development, real-time control

WHAT IS INDUSTRIAL SYSTEM AND DRIVES?

Industrial engineers are educated in the design and analysis of the components that make up man-machine systems. They bring together distinct pieces designed by various technical disciplines and synergise these subsystems with the human elements to create a fully integrated man-machine system. The goal of industrial engineers is to improve any system that is being built or evaluated. They increase the productivity and efficiency of individual human jobs by optimising flow, removing needless motions, leveraging alternate materials to improve production, enhancing product flow through processes, and optimising workstation arrangement. Fundamentally, the industrial engineer's job is to reduce costs and increase profits by ensuring that human, material, physical, and financial resources are used efficiently.

ELIGIBILITY AND CAREER IN INDUSTRIAL SYSTEM AND DRIVES

Applicants must have completed class 10+2 with a scientific stream or its equivalent from any recognised Indian board. Applicants must have received at least 50% in class 10+2. Within India, reserved categories are given a 5-percentage-point relaxation. Physics, Mathematics, Chemistry, and two more courses of the students' choosing must be included in the qualifying examination. To gain admission to one of India's top B.Tech in industrial and production engineering institutions. Candidates must pass their separate entrance examinations (JEE Main, JEE Advanced and BITSAT). Direct admission is also available at some institutions. Industrial Systems and Drives is a rapidly evolving field with several job opportunities in product and service-oriented companies. It necessitates a thorough understanding of equipment, energy, and money and the capacity to do complex system duties.

Drives and Industrial Systems Engineering is a branch of engineering that entails developing and implementing technologies that regulate production and delivery. All of the organisation's production sector actions are designed, programmed, measured, and controlled by these specialists. They also create and execute processes and systems to improve the efficiency of existing methods. Because the system industry is booming, the employment possibilities in this field are pretty promising. As a result, talented industrial and system engineers will be in high demand in the coming years. These experts have an extensive and diverse range of responsibilities. They are, however, employed mainly by the system sector and a variety of related companies.

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