Category	Programme	Mode	Specialization	Duration
UG	B.E	Full -Time	Electronics & Instrumentation Engineering	8 Semesters
PG	M.E	Full -Time	Instrumentation Engineering	4 Semesters
Research	M.S (By Research)	Full –Time & Part -Time	Instrumentation Engineering	-
	Ph.D	Full –Time & Part -Time	Faculty of Electrical Engineering

Year	Regulation	Curriculum & Syllabus
B.E-Electronics & Instrumentation Engineering
R 2019	Regulation 2019	Syllabi-R2019
R2015	Regulation 2015	Syllabi-R2015
R2012	Regulation 2012	Syllabi-R2012
M.E- Instrumentation Engineering
R2019	Regulation 2019	Syllabi-R2019
R2015	Regulation 2015	Syllabi-R2015
R2013	Regulation 2013	Syllabi-R2013
Ph.D
R2020	Regulation 2020

 

PROGRAMME EDUCATIONAL OBJECTIVES (PEOs):

Bachelor of Electronics and Instrumentation Engineering curriculum is designed to prepare the graduates to acquire knowledge, skills and attitudes in order to:

1. Be successful in their technical, professional careers & in their chosen fields such as Electronics, Instrumentation, Process Control & Information Technology.
2. Engross in the life long process of learning to keep themselves abreast of new developments in the emerging areas of Electronics, Instrumentation, Process Control & Information Technology.
3. Start their own company or nurture innovative ideas and creativity in their work
4. Uphold the highest integrity and social responsibility in all their
5. Exhibit leadership and inter-personal

 

 PROGRAM SPECIFIC OUTCOMES (PSOs):

After completion of Electronics and Instrumentation Engineering program, students will gain core competency skills in domains such as Electronics, Instrumentation and Process control and

1. Be able to Select, install, calibrate and maintain instruments used for measurement and analysis and interpret the data obtained to arrive at a significant conclusion.
2. Be able to analyze, design and develop signal conditioning circuits for sensors, actuators and select a suitable Embedded System for realizing various control schemes and smart
3. Be able to design, develop and implement control schemes for various industrial processes and gain hands on experience in configuring Industrial Automation System such as PLC and DCS.

PROGRAMME OUTCOMES (POs):

The graduates will have the ability to 

1. Apply the Mathematical knowledge and the basics of Science and Engineering to solve the problems pertaining to Electronics and Instrumentation
2. Identify and formulate Instrumentation Engineering problems from research literature and be able to analyze the problem using first principles of Mathematics and Engineering
3. Come out with solutions for the complex problems and to design system components or process that fulfill the particular needs taking into account public health and safety and the social, cultural and environmental
4. Draw well-founded conclusions applying the knowledge acquired from research and research methods including design of experiments, analysis and interpretation of data and synthesis of information and to arrive at significant
5. Form, select and apply relevant techniques, resources and Engineering and IT tools for Engineering activities like electronic prototyping, modeling and control of systems/processes and also being conscious of the
6. Understand the role and responsibility of the Professional Instrumentation Engineer and to assess societal, health, safety issues based on the reasoning received from the contextual knowledge.
7. Be aware of the impact of professional Engineering solutions in societal and environmental contexts and exhibit the knowledge and the need for sustainable
8. Apply the principles of Professional Ethics to adhere to the norms of the engineering practice and to discharge ethical
9. Function actively and efficiently as an individual or a member/leader of different teams and multidisciplinary projects.
10. Communicate efficiently the engineering facts with a wide range of engineering community and others, to understand and prepare reports and design documents; to make effective presentations and to frame and follow instructions.
11. Demonstrate the knowledge and understanding of Engineering and Management principles and to apply these to one’s own work as a member / leader in a team to manage Electronics / Instrumentation / Control and Automation projects.

12. Recognize the need for self and life-long learning, keeping pace with technological challenges in the broadest sense.