B.E Programme
Undergraduate Programme
Duration
4 years
8 Semesters
Level
Undergraduate
Programme
About Programme
• The students trained in this program will take an important role as engineers and researchers in the various industrial fields including power system, renewable energy, nanotechnology, machines, railways, Industrial drives, automotive and mechatronics etc.
• Qualified Electrical and Electronics Engineers are always in demand, as they are well suited for Industry automation technology and energy management systems.
• EEE graduates will have wide job opportunities in government, public and private sectors.
Programme Overview
PEO of the Department:
After 2/3 years of graduation, the students will have the ability to:
- Analyse, design and propose solutions in the field of Electrical and Electronics Engineering and adapt to changes in technology by self learning.
- Work effectively as an individual or as an entrepreneur and exhibit leadership qualities in a team to meet the goals of the program of the organization.
- Work with professionalism and concern for environment to meet the societal needs.
- Excel in professional career by achieving higher learning and contribute to technological innovations.
Department of Electrical and Electronics Engineeing
Program Objectives (POs)
Engineering Graduates will be able to:
- Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
- Problem Analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions,using first principles of mathematics, natural sciences, and engineering sciences.
- Design/Development of Solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations.
- Conduct Investigations of Complex Problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions.
- Modern Tool Usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations.
- The Engineer and Society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice.
- Environment and Sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.
- Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
- Individual and Team Work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
- Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
- Project Management and Finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
- Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.
Bachelor of Engineering (B.E):
Eligibility for Admission to the Engineering Course
- The admission to college is through the Entrance Test, Common Entrance Test (CET) conducted by Karnataka Government & Consortium of Medical, Engineering and Dental Colleges of Karnataka COMEDK. The students with meritorious ranking are considered for admissions.
- Admission for the first year of the course shall be opened to the students who have passed the two years Pre-University Examination (Science) conducted by Karnataka State Pre-University Board or 10 + 2 School Programme of the Central Board (CBSE / ICSE) New Delhi with Physics, Chemistry and Mathematics as optional subjects and English as a subject of study or those who have passed any other examinations recognized by the VTU as equivalent there to.
- Candidates other than those from Karnataka are required to obtain Eligibility Certificate from VTU, Belgaum.
- The Eligibility norms are periodically fixed by the VTU with all relevant details of Academic Eligibility, Recognised Equivalent Courses for admissions to UG Courses as well as PG Courses and Institutions recognized for eligibility. The full details are available on the Visvesvaraya Technological University website: vtu.ac.in
Admission through Management Quota
- Candidates should have passed with a minimum aggregate of 45% marks in Physics, Chemistry and Mathematics (PCM) and should have passed these subjects individually. Physics, Mathematics and Chemistry are compulsory subjects.
With a degree in electrical and electronic engineering, there are a plethora of career options on the basis of knowledge and interests. You can opt for advanced, postgraduate study, or join the workforce immediately.
Job Opportunities for Electrical and Electronics Engineering (EEE) Graduates:
Electrical and Electronics Graduates find work in a wide range of sectors including power and Energy, aerospace, automotive, Integrated Circuit Design, Embedded Systems, IT and telecommunications. EEE Engineers work on multiple projects throughout their career which includes the power systems, Electronics, computer, automotive, robots, IT, Aerospace and so on.
Some of the top sectors that hire Electrical & Electronics Engineers are listed below:
- Engineering Services
- Electric Power Generating Installations
- Electricity Transmission and Distribution Organizations
- Government Electrical Works Department
- Indian Railways
- Design and Micro Fabrication of Electronic Circuit Components.
- IT Sector/Software Firms
- Aerospace Manufacture Industry
- Automobile Industry
- Airports Authority of India
- Government Electrical Works Department
- Navigational Equipment Manufacturing Industries
- Architecture and Construction Firms
Key Recruiters for EEE Graduates in BNMIT
Higher Studies Opportunities for Electrical and Electronics Engineering (EEE) Graduates:
- Master of Technology (M.Tech)/ Master of Engineering (M.E): A two-year postgraduate degree offered by most IITs, NITs and other reputed institutions in India. The M.Tech/M.E course offers you a specialization in your core and associated disciplines. With a B.E in Electrical and Electronics Engineering, you can go in for an M.Tech/M.E in Power System Engineering, Power Electronics, Computer Application in Industrial Drive, VSLI and Embedded Systems, Nanotechnology, Robotics, and Computer Engineering, and more.
- Master of Science (MS): Another option is to pursue advanced studies overseas in the form of an MS (Master of Science) degree. Roughly the equivalent of an M.Tech, the MS requires you to take the GRE and TOEFL exams.
- MBA: If you are planning a non-core career, a postgraduate diploma programme in management or an MBA from a reputable business school or institution, is always a great choice. You’ll be required to pass the CAT (Combined Aptitude Test) or various other entrance exams to gain admission into an MBA programme.
Entrepreneurship opportunities for Electrical and Electronics Engineering (EEE) Graduates
An electrical engineer, has several viable and lucrative business ideas to turn into entrepreneur such as green consulting, new product creation, repair and maintenance services. Digitally Controlled Home Automation, All types of Electrical Switches Manufacturing, Control and Automation Devices, Special Lighting Services and so on.
Why BNMIT for this course ?
- Nine (9) Undergraduate Ranks and Thirteen (13) Post Graduate Ranks in university examinations.
- Equal importance to theoretical fundamentals, hands-on, and experiential learning.
- Skillset targeted towards emerging technologies including renewable energy, nanotechnology, Machine Learning, IoT, automotive and mechatronics etc.
- Well equipped with the required facilities for conduction of experiments and pursuing research work.
- Emphasis on design-oriented thinking, creativity, and life-long learning.
- Regular industrial visits and technical talks to enhance the student’s practical/technical knowledge in the latest evolving technological domains.
- Innovative projects funded by different agencies such as the NewGen IEDC from the Department of Science and Technology, Govt. of India.
- Engineering Exploration lab(EEL) to undertake collaborative project works.
- A series of alumni-student interactive sessions to expose the students to the current market trends.
- The Skill Development Program (SDP) to enhance industry relevant skills of the students.
- The Experiential Learning Laboratory (ELL lab) to learn programming languages to broaden the areas of job opportunity in a rapidly-shifting digital world.
- Personality Development Programs such as T5 [Talk for 5 minutes], TW5 [Talk and Write], WP5 [Write and presentation], programs to encourage activity-based learning and improvise interpersonal skill sets of the students.
- Awarded the champion college of the year 2012-13 in EEE by M/s Upskills Technology Pvt. Ltd.
Programme Curriculum
1st Semester (Chemistry Group)
Course Code | Course |
18MAT11 | Calculus and Linear Algebra |
18CHE12 | Engineering Chemistry |
18CPS13 | C Programming for Problem Solving |
18ELN14 | Basic Electronics |
18ME15 | Elements of Mechanical Engineering |
18CHEL16 | Engineering Chemistry Laboratory |
18CPL17 | C Programming Laboratory |
18EGH18 | Technical English-I |
2nd Semester (Physics Group)
Course Code | Course |
18MAT21 | Advanced Calculus and Numerical Methods |
18PHY22 | Engineering Physics |
18ELE23 | Basic Electrical Engineering |
18CIV24 | Elements of Civil Engineering and Mechanics |
18EGDL25 | Engineering Graphics |
18PHYL26 | Engineering Physics Laboratory |
18ELEL27 | Basic Electrical Engineering Laboratory |
18EGH28 | Technical English-II |
3rd Semester
Course Code | Course |
18MAT31 | Transform Calculus, Fourier Series And Numerical Techniques |
18EE32 | Electric Circuit Analysis |
18EE33 | Transformers and Generators |
18EE34 | Analog Electronic Circuits |
18EE35 | Digital System Design |
18EE36 | Electrical and Electronic Measurements |
18EEL37 | Electrical Machines Laboratory -1 |
18EEL38 | Electronics Laboratory |
18KVK39 | Vyavaharika Kannada (Kannada for communication)/ |
18KAK39 | Aadalitha Kannada (Kannada for Administration) |
4th Semester
Course Code | Course |
18MAT41 | Complex analysis, probability and statistical methods |
18EE42 | Power Generation and Economics |
18EE43 | Transmission and Distribution |
18EE44 | Electric Motors |
18EE45 | Electromagnetic Field Theory |
18EE46 | Operational Amplifiers and Linear ICs |
18EEL47 | Electrical Machines Laboratory -2 |
18EEL48 | Op- amp and Linear ICs Laboratory |
18CPH49 | Constitution of India, Professional Ethics and Cyber Law |
5th Semester
Course Code | Course |
18EE51 | Management and Entrepreneurship |
18EE52 | Microcontroller |
18EE53 | Power Electronics |
18EE54 | Signals and Systems |
18EE55 | Electrical Machine Design |
18EE56 | High Voltage Engineering |
18EEL57 | Microcontroller Laboratory |
18EEL58 | Power Electronics Laboratory |
18CIV59 | Environmental Studies |
6th Semester
Course Code | Course |
18EE61 | Control Systems |
18EE62 | Power System Analysis – 1 |
18EE63 | Digital Signal Processing |
18EE64X | Professional Elective -1 |
18EE65X | Open Elective –A |
18EEL66 | Control System Laboratory |
18EEL67 | Digital Signal Processing Laboratory |
18EEMP68 | Mini-project |
— | Internship |
Professional Elective -1 | ||
Course code under18XX64X | Course Title | |
18 EE641 | Introduction to Nuclear Power | |
18 EE642 | Electrical Engineering Materials | |
18 EE643 | Computer Aided Electrical Drawing | |
Open Elective –A (Not for EEE Programs) | ||
18EE651 | Industrial Servo Control Systems | |
18EE652 | PLC and SCADA | |
18EE653 | Renewable Energy Systems |
7th Semester
Course Code | Course |
18EE71 | Power System Analysis – 2 |
18EE72 | Power System Protection |
18EE73X | Professional Elective – 2 |
18EE74X | Professional Elective – 3 |
18EE75X | Open Elective –B |
18EEL76 | PSS laboratory |
18EEL77 | Relay & HV lab |
18EEP78 | Project Work Phase – 1 |
— | Internship |
Professional Elective – 2 | ||
Course code under 18EE73X | Course Title | |
18EE731 | Solar and Wind Energy | |
18EE732 | Sensors and Transducers | |
18 EE733 | Integrated of Distribution Generation. | |
Professional Electives – 3 | ||
Course code under 18 EE74X | Course Title | |
18 EE741 | Industrial Drives and Application | |
18 EE742 | Utilization of Electrical Power | |
18 EE743 | PLC and SCADA | |
Open Elective –B (Not for EEE Programs) | ||
18EE751 | Industrial Motors and Control | |
18EE752 | Sensors and Transducers | |
18EE753 | Electric Vehicles |
8th Semester
Course Code | Course |
18EE81 | Power System Operation and Control |
18EE82X | Professional Elective – 4 |
18EEP83 | Project Work Phase – 2 |
18EES84 | Technical Seminar |
18EEI85 | Internship |
Professional Electives – 4 | |
Course code under 18EE82X | Course Title |
18EE821 | FACTs and HVDC Transmission |
18EE822 | Electrical Estimation and Costing |
18EE823 | Electric Vehicles Technologies |
How To Apply?
• The admission to college is through the Entrance Tests, Common Entrance Test (CET) conducted by Karnataka Government & Consortium of Medical, Engineering and Dental Colleges of Karnataka COMEDK. The students with meritorious ranking are considered for admissions.
• Candidates other than those from Karnataka are required to obtain Eligibility Certificate from VTU, Belagavi.
• The Eligibility norms are periodically fixed by the VTU with all relevant details of Academic Eligibility, Recognised Equivalent Courses for admissions to UG Courses as well as PG Courses and Institutions recognized for eligibility. The full details are available on the Visvesvaraya Technological University website: www.vtu.ac.in
• Admission through Management Quota:
Candidates should have passed with a minimum aggregate of 45% marks in Physics, Chemistry and Mathematics (PCM) and should have passed these subjects individually. Physics, Mathematics and Chemistry are compulsory subjects.
• The students trained in this program will take an important role as engineers and researchers in the various industrial fields including power system, renewable energy, nanotechnology, machines, railways, Industrial drives, automotive and mechatronics etc.
• Qualified Electrical and Electronics Engineers are always in demand, as they are well suited for Industry automation technology and energy management systems.
• EEE graduates will have wide job opportunities in government, public and private sectors.
Registration for Admission – BE (For Direct admission under Management quota) (Application to be filled by student only)
Application Form