Electronic Instrumentation and Control Engineering is a fast growing branch in the field of Electronics because of its interdisciplinary nature. It has wide scope in all industrial processes and applications. E.I. &C. Engineers are in full demand not only in process industries but also in Automobile Industries, due to increased automation. With changing times, many processes have become more and more automated and a need for a closer monitoring of inputs and responses has been felt. As a result the instruments at the component and sub-system levels also need to become more and more integrated. EIC branch is full cognizance of this situation and is catering to the need of the present demand. It came into existence in year 2002.
Instrumentation and Control engineering is responsible for designing, developing, installing, managing and/or maintaining equipment which is used to monitor and control engineering systems, machinery and processes.
The main objective of the work of IC branch is to ensure that these systems and processes operate effectively, efficiently and safely. They usually work for the companies who manufacture and supply the equipment or for the companies who use it.
Program Education Objective (PEOs)
• To inculcate the generic skills needed to function in the multi disciplinary, diverse, competitive and fast-changing global engineering environment.
• To prepare graduates with the technical and managerial skills necessary to enter careers in design, manufacturing, marketing, operations, and maintenance in the fields of measurement, control, robotics, and automation engineering
• To acquire strengths in their knowledge of operations, maintenance, and manufacturing.
Program Outcomes (PO):
All Electronics and Communication Engineering graduates shall demonstrate:
- An ability to apply knowledge of mathematics, science, and engineering to electronics and communication engineering problems.
- An ability to design and conduct experiments, and to analyze and interpret gathered data.
- An ability to develop and/or design a system or system components to meet desired specifications, performance, and capabilities.
- An ability to function on and/or develop leadership in multi-disciplinary teams
- An ability to identify, formulates, and solves electronics and communication engineering problems.
- An understanding of professional and ethical responsibility
- An ability for effective communication and an ability to function individually as well as part of a team
- An ability to understand and correctly interpret the impact of engineering solutions in a social/global context.
- An ability to engage in life-long learning to follow developments in electronics and communication engineering.
- A knowledge and understanding of contemporary issues and recognition of the need for quality.
- An ability to skillfully use modern engineering tools and techniques necessary for engineering design, analysis and applications.
- An ability to pinpoint and define engineering problems in the fields of electronics instrumentation and control engineering and able to resolve them through analytical thinking in their own or related fields.
- Graduates will exhibit research and problem-solving skills to support lifelong personal and professional development and able to face competitive exams like GATE, IES, ISRO, BSNL (JTO), DRDO, DMRC etc.
• Control systems design and installation
• Process control and instrumentation
• Installation and management
• Electronics design and manufacturing
• Engineering research and development
• Sales and service of technical equipment
• Project and technology management
Control System, Transducers in Instrumentation, Modern Control System, Electronic Measurement & Instrumentation, Process Control Systems, Analytical & Environmental Instrumentation, Biomedical Instrumentation etc. *
Please visit www.rtu.ac.in for the list of all core and elective subjects.