The BTech Electrical Engineering syllabus is designed to build strong fundamentals in electrical circuits, machines, power systems, control systems, and modern energy technologies. It includes theoretical learning, electrical labs, simulation tools, industrial training, and project work. Students gain knowledge of generation, transmission, distribution, automation, and renewable energy systems.
The first year focuses on engineering fundamentals like mathematics, physics, basic electrical concepts, and programming basics. It helps students build a foundation for advanced electrical engineering subjects in later years.
The second year introduces core electrical engineering concepts like circuits, machines, and measurements. Students gain practical experience through electrical machines and circuit analysis labs.
The third year focuses on power generation, transmission, distribution, and protection systems. Students learn the core concepts required for power sector and industrial electrical careers.
The final year focuses on advanced technologies like renewable energy systems, smart grids, and industry exposure. Students complete internships and final-year major projects to strengthen their professional skills.
| Subject | Book Title | Author |
|---|---|---|
| Electrical Machines | Electrical Machines | P.S. Bimbhra |
| Power Systems | Power System Engineering | I.J. Nagrath & D.P. Kothari |
| Power Electronics | Power Electronics | M.H. Rashid |
| Control Systems | Control Systems Engineering | Norman S. Nise |
BTech Electrical Engineering is a 4-year program divided into 8 semesters. The first year focuses on engineering basics and mathematics. The second year covers circuits, machines, and measurements subjects. The third and fourth years focus on power systems, automation, renewable energy, and major projects.
Important core subjects include electrical machines, power systems, and power electronics. Control systems and switchgear & protection are also very important for GATE preparation. Electrical circuits and measurements build strong base for problem-solving. These subjects are essential for power sector and PSU job opportunities.
Yes, lab practical training is compulsory in electrical engineering. Students perform circuit experiments, transformer testing, and motor performance experiments. Power electronics labs include converter testing and control experiments. Practical learning helps students become industry-ready and improves scoring ability.
Yes, renewable energy systems and smart grid topics are included in the final year. These subjects prepare students for careers in solar, wind, and green energy projects. Smart grids are important for modern electricity distribution and automation. Future job demand is growing in renewable energy and smart power infrastructure.
Yes, industrial automation is included in many updated electrical engineering syllabi. Students learn PLC basics, SCADA monitoring, and industrial electrical control systems. Automation knowledge improves job opportunities in manufacturing and process industries. It also helps in roles like automation engineer and control systems engineer.
Yes, internships and major projects are very important in the final year. Internships provide exposure in power plants, PSUs, and electrical industries. Major projects build practical problem-solving and technical design skills. These experiences improve placements and help students in technical interviews.
Electives may include:
Students should choose electives based on future job demand and career goals.
Students are evaluated through semester exams, internal tests, assignments, and lab practicals. Practical performance matters because lab marks contribute to total semester score. Many universities also include projects, seminars, and viva evaluation. Good lab skills help students score better and improve industry readiness.
P.S. Bimbhra is widely used for electrical machines and M.H. Rashid for power electronics. Nagrath & Kothari is helpful for power system engineering preparation. Norman Nise is recommended for control systems fundamentals. Along with books, class notes and lab manuals are very important for exam success.